#CTLD

* Added Subcategories for static cargo objects
#POINT
2025-08-15 10:47:21 +00:00 · 2023-01-31 11:27:12 +01:00 · 2023-01-30 18:00:16 +01:00 · 2023-01-29 18:36:44 +01:00 · 2023-01-29 12:53:50 +01:00 · 2023-01-28 18:42:29 +01:00
134 changed files with 16430 additions and 8863 deletions
--- a/Development/Moose/.editorconfig
+++ b/Development/Moose/.editorconfig
@@ -0,0 +1,166 @@
 # Repository: https://github.com/CppCXY/EmmyLuaCodeStyle
 # English documentation: https://github.com/CppCXY/EmmyLuaCodeStyle/blob/master/README_EN.md
 [*.lua]
 # [basic]
 # optional space/tab
 indent_style = space
 # if indent_style is space, this is valid
 indent_size = 4
 # if indent_style is tab, this is valid
 tab_width = 4
 # none/single/double
 quote_style = none
 # only support number
 continuation_indent_size = 0
 # optional crlf/lf/cr/auto, if it is 'auto', in windows it is crlf other platforms are lf
 end_of_line = auto
 detect_end_of_line = false
 # this mean utf8 length , if this is 'unset' then the line width is no longer checked
 # this option decides when to chopdown the code
 max_line_length = 9999
 # this will check text end with new line
 insert_final_newline = true
 # [function]
 # function call expression's args will align to first arg
 # optional true/false/only_after_more_indention_statement/only_not_exist_cross_row_expression
 align_call_args = false
 # if true, all function define params will align to first param
 align_function_define_params = true
 remove_expression_list_finish_comma = true
 # keep/remove/remove_table_only/remove_string_only/unambiguous_remove_string_only
 call_arg_parentheses = keep
 # [table]
 #optional none/comma/semicolon
 table_separator_style = none
 #optional keep/never/always/smart
 trailing_table_separator = keep
 # see document for detail
 continuous_assign_table_field_align_to_equal_sign = true
 # if true, format like this "local t = { 1, 2, 3 }"
 keep_one_space_between_table_and_bracket = true
 # if indent_style is tab, this option is invalid
 align_table_field_to_first_field = true
 # [statement]
 align_chained_expression_statement = false
 # continous line distance
 max_continuous_line_distance = 1
 # see document for detail
 continuous_assign_statement_align_to_equal_sign = true
 # if statement will align like switch case 
 if_condition_align_with_each_other = false
 # if true, continuation_indent_size for local or assign statement is invalid
 # however, if the expression list has cross row expression, it will not be aligned to the first expression
 local_assign_continuation_align_to_first_expression = false
 statement_inline_comment_space = 1
 # [indentation]
 # if true, the label loses its current indentation
 label_no_indent = false
 # if true, there will be no indentation in the do statement
 do_statement_no_indent = false
 # if true, the conditional expression of the if statement will not be a continuation line indent
 if_condition_no_continuation_indent = false
 if_branch_comments_after_block_no_indent = false
 # [space]
 # if true, t[#t+1] will not space wrapper '+'
 table_append_expression_no_space = false
 long_chain_expression_allow_one_space_after_colon = false
 remove_empty_header_and_footer_lines_in_function = true
 space_before_function_open_parenthesis = false
 space_inside_function_call_parentheses = false
 space_inside_function_param_list_parentheses = false
 space_before_open_square_bracket = false
 space_inside_square_brackets = false
 # if true, ormat like this "local t <const> = 1"
 keep_one_space_between_namedef_and_attribute = true
 # [row_layout]
 # The following configuration supports four expressions
 # minLine:${n}   
 # keepLine   
 # keepLine:${n}
 # maxLine:${n}
 keep_line_after_if_statement = minLine:0
 keep_line_after_do_statement = minLine:0
 keep_line_after_while_statement = minLine:0
 keep_line_after_repeat_statement = minLine:0
 keep_line_after_for_statement = minLine:0
 keep_line_after_local_or_assign_statement = keepLine
 keep_line_after_function_define_statement = keepLine:1
 keep_line_after_expression_statement = keepLine
 # [diagnostic]
 # the following is code diagnostic options
 enable_check_codestyle = true
 # [diagnostic.name_style]
 enable_name_style_check = false
 # the following is name style check rule 
 # base option off/camel_case/snake_case/upper_snake_case/pascal_case/same(filename/first_param/'<const string>', snake_case/pascal_case/camel_case)
 # all option can use '|' represent or 
 # for example:
 # snake_case | upper_snake_case
 # same(first_param, snake_case)
 # same('m')
 local_name_define_style = snake_case
 function_param_name_style = snake_case
 function_name_define_style = snake_case
 local_function_name_define_style = snake_case
 table_field_name_define_style = snake_case
 global_variable_name_define_style = snake_case|upper_snake_case
 module_name_define_style = same('m')|same(filename, snake_case)
 require_module_name_style = same(first_param, snake_case)
 class_name_define_style = same(filename, snake_case)
--- a/Development/Moose/.lua-format
+++ b/Development/Moose/.lua-format
@@ -1,33 +0,0 @@
 # See https://github.com/Koihik/LuaFormatter
 # Use '-- LuaFormatter off' and '-- LuaFormatter on' around code blocks to inhibit formatting
 column_limit: 500
 indent_width: 2
 use_tab: false
 continuation_indent_width: 2
 keep_simple_control_block_one_line: false
 keep_simple_function_one_line: false
 align_args: true
 break_after_functioncall_lp: false
 break_before_functioncall_rp: false
 align_parameter: true
 chop_down_parameter: true
 break_after_functiondef_lp: false
 break_before_functiondef_rp: false
 align_table_field: true
 break_after_table_lb: true
 break_before_table_rb: true
 chop_down_table: true
 chop_down_kv_table: true
 column_table_limit: 500
 table_sep: ','
 extra_sep_at_table_end: true
 break_after_operator: true
 single_quote_to_double_quote: false
 double_quote_to_single_quote: false
 spaces_before_call: 1
 spaces_inside_functiondef_parens: true
 spaces_inside_functioncall_parens: true
 spaces_inside_table_braces: true
 spaces_around_equals_in_field: true
 line_breaks_after_function_body: 1
--- a/Development/Moose/.vscode/settings.json
+++ b/Development/Moose/.vscode/settings.json
@@ -0,0 +1,17 @@
 {
    "Lua.workspace.preloadFileSize": 1000,
    "Lua.diagnostics.disable": [
        "undefined-doc-name"
    ],
    "Lua.diagnostics.globals": [
        "BASE",
        "lfs",
        "__Moose",
        "trigger",
        "coord",
        "missionCommands"
    ],
    "Lua.completion.displayContext": 5,
    "Lua.runtime.version": "Lua 5.1",
    "Lua.completion.callSnippet": "Both"
 }
--- a/Development/Moose/AI/AI_A2A_Cap.lua
+++ b/Development/Moose/AI/AI_A2A_Cap.lua
@@ -1,4 +1,6 @@
--- **AI** -- (R2.2) - Models the process of Combat Air Patrol (CAP) for airplanes.
+--- **AI** - Models the process of Combat Air Patrol (CAP) for airplanes.
 --
 -- This is a class used in the @{AI.AI_A2A_Dispatcher}.
 --
 -- ===
 --
@@ -13,8 +15,7 @@
 -- @extends AI.AI_Air_Patrol#AI_AIR_PATROL
 -- @extends AI.AI_Air_Engage#AI_AIR_ENGAGE
-
+--- The AI_A2A_CAP class implements the core functions to patrol a @{Core.Zone} by an AI @{Wrapper.Group} or @{Wrapper.Group}
 --- The AI_A2A_CAP class implements the core functions to patrol a @{Zone} by an AI @{Wrapper.Group} or @{Wrapper.Group}
 -- and automatically engage any airborne enemies that are within a certain range or within a certain zone.
 --
 -- ![Process](..\Presentations\AI_CAP\Dia3.JPG)
@@ -81,15 +82,15 @@
 -- that will define when the AI will engage with the detected airborne enemy targets.
 -- The range can be beyond or smaller than the range of the Patrol Zone.
 -- The range is applied at the position of the AI.
-- Use the method @{AI.AI_CAP#AI_A2A_CAP.SetEngageRange}() to define that range.
+-- Use the method @{#AI_A2A_CAP.SetEngageRange}() to define that range.
 --
 -- ## 4. Set the Zone of Engagement
 --
 -- ![Zone](..\Presentations\AI_CAP\Dia12.JPG)
 --
-- An optional @{Zone} can be set,
+-- An optional @{Core.Zone} can be set,
 -- that will define when the AI will engage with the detected airborne enemy targets.
-- Use the method @{AI.AI_Cap#AI_A2A_CAP.SetEngageZone}() to define that Zone.
+-- Use the method @{#AI_A2A_CAP.SetEngageZone}() to define that Zone.
 --
 -- ===
 --
@@ -106,7 +107,7 @@ AI_A2A_CAP = {
 -- @param DCS#Altitude EngageFloorAltitude The lowest altitude in meters where to execute the engagement.
 -- @param DCS#Altitude EngageCeilingAltitude The highest altitude in meters where to execute the engagement.
 -- @param DCS#AltitudeType EngageAltType The altitude type ("RADIO"=="AGL", "BARO"=="ASL"). Defaults to "RADIO".
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Group} in km/h.
 -- @param DCS#Speed  PatrolMaxSpeed The maximum speed of the @{Wrapper.Group} in km/h.
 -- @param DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
@@ -132,7 +133,7 @@ end
 --- Creates a new AI_A2A_CAP object
 -- @param #AI_A2A_CAP self
 -- @param Wrapper.Group#GROUP AICap
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
 -- @param DCS#Altitude PatrolCeilingAltitude The highest altitude in meters where to execute the patrol.
 -- @param DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Group} in km/h.
@@ -191,7 +192,7 @@ end
 --- Evaluate the attack and create an AttackUnitTask list.
 -- @param #AI_A2A_CAP self
 -- @param Core.Set#SET_UNIT AttackSetUnit The set of units to attack.
-- @param Wrappper.Group#GROUP DefenderGroup The group of defenders.
+-- @param Wrapper.Group#GROUP DefenderGroup The group of defenders.
 -- @param #number EngageAltitude The altitude to engage the targets.
 -- @return #AI_A2A_CAP self
 function AI_A2A_CAP:CreateAttackUnitTasks( AttackSetUnit, DefenderGroup, EngageAltitude )
--- a/Development/Moose/AI/AI_A2A_Dispatcher.lua
+++ b/Development/Moose/AI/AI_A2A_Dispatcher.lua
@@ -1,4 +1,4 @@
--- **AI** - (R2.2) - Manages the process of an automatic A2A defense system based on an EWR network targets and coordinating CAP and GCI.
+--- **AI** - Manages the process of an automatic A2A defense system based on an EWR network targets and coordinating CAP and GCI.
 --
 -- ===
 --
@@ -57,8 +57,8 @@
 --
 -- ## 2. Which type of EWR will I setup? Grouping based per AREA, per TYPE or per UNIT? (Later others will follow).
 --
-- The MOOSE framework leverages the @{Detection} classes to perform the EWR detection.
+-- The MOOSE framework leverages the @{Functional.Detection} classes to perform the EWR detection.
-- Several types of @{Detection} classes exist, and the most common characteristics of these classes is that they:
+-- Several types of @{Functional.Detection} classes exist, and the most common characteristics of these classes is that they:
 --
 --    * Perform detections from multiple FACs as one co-operating entity.
 --    * Communicate with a Head Quarters, which consolidates each detection.
@@ -126,7 +126,7 @@
 --    * polygon zones
 --    * moving zones
 --
-- Depending on the type of zone selected, a different @{Zone} object needs to be created from a ZONE_ class.
+-- Depending on the type of zone selected, a different @{Core.Zone} object needs to be created from a ZONE_ class.
 --
 -- ## 14. For each Squadron doing CAP, what are the time intervals and CAP amounts to be performed?
 --
@@ -356,7 +356,7 @@ do -- AI_A2A_DISPATCHER
  --
  -- ![Banner Image](..\Presentations\AI_A2A_DISPATCHER\Dia9.JPG)
  --
-  -- If it's a cold war then the **borders of red and blue territory** need to be defined using a @{zone} object derived from @{Core.Zone#ZONE_BASE}.
+  -- If it's a cold war then the **borders of red and blue territory** need to be defined using a @{Core.Zone} object derived from @{Core.Zone#ZONE_BASE}.
  -- If a hot war is chosen then **no borders** actually need to be defined using the helicopter units other than
  -- it makes it easier sometimes for the mission maker to envisage where the red and blue territories roughly are.
  -- In a hot war the borders are effectively defined by the ground based radar coverage of a coalition.
@@ -425,7 +425,7 @@ do -- AI_A2A_DISPATCHER
  --   * @{#AI_A2A_DISPATCHER.SetSquadronTakeoffFromParkingHot}() will spawn new aircraft in with running engines at a parking spot at the airfield.
  --   * @{#AI_A2A_DISPATCHER.SetSquadronTakeoffFromRunway}() will spawn new aircraft at the runway at the airfield.
  --
-  -- **The default landing method is to spawn new aircraft directly in the air.**
+  -- **The default take-off method is to spawn new aircraft directly in the air.**
  --
  -- Use these methods to fine-tune for specific airfields that are known to create bottlenecks, or have reduced airbase efficiency.
  -- The more and the longer aircraft need to taxi at an airfield, the more risk there is that:
@@ -592,7 +592,7 @@ do -- AI_A2A_DISPATCHER
  --      A2ADispatcher:SetSquadronCap( "Maykop", CAPZoneMiddle, 4000, 8000, 600, 800, 800, 1200, "RADIO" )
  --      A2ADispatcher:SetSquadronCapInterval( "Sochi", 2, 30, 120, 1 )
  --
-  -- Note the different @{Zone} MOOSE classes being used to create zones of different types. Please click the @{Zone} link for more information about the different zone types.
+  -- Note the different @{Core.Zone} MOOSE classes being used to create zones of different types. Please click the @{Core.Zone} link for more information about the different zone types.
  -- Zones can be circles, can be setup in the mission editor using trigger zones, but can also be setup in the mission editor as polygons and in this case GROUP objects are being used!
  --
  -- ## 7.2. Set the squadron to execute CAP:
@@ -882,7 +882,8 @@ do -- AI_A2A_DISPATCHER
  -- @type AI_A2A_DISPATCHER.Takeoff
  -- @extends Wrapper.Group#GROUP.Takeoff
-  --- @field #AI_A2A_DISPATCHER.Takeoff Takeoff
+  ---
  -- @field #AI_A2A_DISPATCHER.Takeoff Takeoff
  AI_A2A_DISPATCHER.Takeoff = GROUP.Takeoff
  --- Defines Landing type/location.
@@ -928,6 +929,8 @@ do -- AI_A2A_DISPATCHER
    self.DefenderTasks = {} -- The Defenders Tasks.
    self.DefenderDefault = {} -- The Defender Default Settings over all Squadrons.
    self.SetSendPlayerMessages = false --#boolean Flash messages to player
    -- TODO: Check detection through radar.
    self.Detection:FilterCategories( { Unit.Category.AIRPLANE, Unit.Category.HELICOPTER } )
    -- self.Detection:InitDetectRadar( true )
@@ -1145,7 +1148,7 @@ do -- AI_A2A_DISPATCHER
    self:I( "Captured " .. AirbaseName )
-    -- Now search for all squadrons located at the airbase, and sanatize them.
+    -- Now search for all squadrons located at the airbase, and sanitize them.
    for SquadronName, Squadron in pairs( self.DefenderSquadrons ) do
      if Squadron.AirbaseName == AirbaseName then
        Squadron.ResourceCount = -999 -- The base has been captured, and the resources are eliminated. No more spawning.
@@ -1301,7 +1304,7 @@ do -- AI_A2A_DISPATCHER
  --- Define a border area to simulate a **cold war** scenario.
  -- A **cold war** is one where CAP aircraft patrol their territory but will not attack enemy aircraft or launch GCI aircraft unless enemy aircraft enter their territory. In other words the EWR may detect an enemy aircraft but will only send aircraft to attack it if it crosses the border.
  -- A **hot war** is one where CAP aircraft will intercept any detected enemy aircraft and GCI aircraft will launch against detected enemy aircraft without regard for territory. In other words if the ground radar can detect the enemy aircraft then it will send CAP and GCI aircraft to attack it.
-  -- If it's a cold war then the **borders of red and blue territory** need to be defined using a @{zone} object derived from @{Core.Zone#ZONE_BASE}. This method needs to be used for this.
+  -- If it's a cold war then the **borders of red and blue territory** need to be defined using a @{Core.Zone} object derived from @{Core.Zone#ZONE_BASE}. This method needs to be used for this.
  -- If a hot war is chosen then **no borders** actually need to be defined using the helicopter units other than it makes it easier sometimes for the mission maker to envisage where the red and blue territories roughly are. In a hot war the borders are effectively defined by the ground based radar coverage of a coalition. Set the noborders parameter to 1
  -- @param #AI_A2A_DISPATCHER self
  -- @param Core.Zone#ZONE_BASE BorderZone An object derived from ZONE_BASE, or a list of objects derived from ZONE_BASE.
@@ -1710,7 +1713,7 @@ do -- AI_A2A_DISPATCHER
    -- Get free parking for fighter aircraft.
    local nfreeparking = DefenderSquadron.Airbase:GetFreeParkingSpotsNumber( AIRBASE.TerminalType.FighterAircraft, true )
-    -- Take number of free parking spots if no resource count was specifed.
+    -- Take number of free parking spots if no resource count was specified.
    DefenderSquadron.ResourceCount = DefenderSquadron.ResourceCount or nfreeparking
    -- Check that resource count is not larger than free parking spots.
@@ -1755,7 +1758,7 @@ do -- AI_A2A_DISPATCHER
  -- @param DCS#Altitude EngageFloorAltitude The lowest altitude in meters where to execute the engagement.
  -- @param DCS#Altitude EngageCeilingAltitude The highest altitude in meters where to execute the engagement.
  -- @param #number EngageAltType The altitude type to engage, which is a string "BARO" defining Barometric or "RADIO" defining radio controlled altitude.
-  -- @param Core.Zone#ZONE_BASE Zone The @{Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the CAP will be executed.
+  -- @param Core.Zone#ZONE_BASE Zone The @{Core.Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the CAP will be executed.
  -- @param #number PatrolMinSpeed The minimum speed at which the cap can be executed.
  -- @param #number PatrolMaxSpeed The maximum speed at which the cap can be executed.
  -- @param #number PatrolFloorAltitude The minimum altitude at which the cap can be executed.
@@ -1822,7 +1825,7 @@ do -- AI_A2A_DISPATCHER
  --- Set a CAP for a Squadron.
  -- @param #AI_A2A_DISPATCHER self
  -- @param #string SquadronName The squadron name.
-  -- @param Core.Zone#ZONE_BASE Zone The @{Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the CAP will be executed.
+  -- @param Core.Zone#ZONE_BASE Zone The @{Core.Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the CAP will be executed.
  -- @param #number PatrolFloorAltitude The minimum altitude at which the cap can be executed.
  -- @param #number PatrolCeilingAltitude the maximum altitude at which the cap can be executed.
  -- @param #number PatrolMinSpeed The minimum speed at which the cap can be executed.
@@ -2319,6 +2322,13 @@ do -- AI_A2A_DISPATCHER
    return self
  end
  --- Set flashing player messages on or off
  -- @param #AI_A2A_DISPATCHER self
  -- @param #boolean onoff Set messages on (true) or off (false)
  function AI_A2A_DISPATCHER:SetSendMessages( onoff )
      self.SetSendPlayerMessages = onoff
  end
  --- Sets flights to take-off in the air, as part of the defense system.
  -- @param #AI_A2A_DISPATCHER self
  -- @param #string SquadronName The name of the squadron.
@@ -3188,7 +3198,9 @@ do -- AI_A2A_DISPATCHER
              local Squadron = Dispatcher:GetSquadronFromDefender( DefenderGroup )
              if Squadron then
                if self.SetSendPlayerMessages then
                  Dispatcher:MessageToPlayers( Squadron,  DefenderName .. " Wheels up.", DefenderGroup )
                end
                AI_A2A_Fsm:__Patrol( 2 ) -- Start Patrolling
              end
            end
@@ -3200,9 +3212,9 @@ do -- AI_A2A_DISPATCHER
              self:GetParent( self ).onafterPatrolRoute( self, DefenderGroup, From, Event, To )
              local DefenderName = DefenderGroup:GetCallsign()
-              local Dispatcher = self:GetDispatcher() -- #AI_A2G_DISPATCHER
+              local Dispatcher = self:GetDispatcher() -- #AI_A2A_DISPATCHER
              local Squadron = Dispatcher:GetSquadronFromDefender( DefenderGroup )
-              if Squadron then
+              if Squadron and self.SetSendPlayerMessages then       
                  Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", patrolling.", DefenderGroup )
              end
@@ -3219,7 +3231,7 @@ do -- AI_A2A_DISPATCHER
              local DefenderName = DefenderGroup:GetCallsign()
              local Dispatcher = self:GetDispatcher() -- #AI_A2A_DISPATCHER
              local Squadron = Dispatcher:GetSquadronFromDefender( DefenderGroup )
-              if Squadron then
+              if Squadron and self.SetSendPlayerMessages then
                Dispatcher:MessageToPlayers( Squadron,  DefenderName .. " returning to base.", DefenderGroup )
              end
              Dispatcher:ClearDefenderTaskTarget( DefenderGroup )
@@ -3404,10 +3416,10 @@ do -- AI_A2A_DISPATCHER
                    local DefenderTarget = Dispatcher:GetDefenderTaskTarget( DefenderGroup )
                    if DefenderTarget then
-                      if Squadron.Language == "EN" then
+                      if Squadron.Language == "EN" and self.SetSendPlayerMessages then
                        Dispatcher:MessageToPlayers( Squadron,  DefenderName .. " wheels up.", DefenderGroup )
-                      elseif Squadron.Language == "RU" then
+                      elseif Squadron.Language == "RU" and self.SetSendPlayerMessages then
-                        Dispatcher:MessageToPlayers( Squadron, DefenderName .. " колеса вверх.", DefenderGroup )
+                        Dispatcher:MessageToPlayers( Squadron,  DefenderName .. " колёса вверх.", DefenderGroup )
                      end
                      -- Fsm:__Engage( 2, DefenderTarget.Set ) -- Engage on the TargetSetUnit
                      Fsm:EngageRoute( DefenderTarget.Set ) -- Engage on the TargetSetUnit
@@ -3425,11 +3437,11 @@ do -- AI_A2A_DISPATCHER
                      local FirstUnit = AttackSetUnit:GetFirst()
                      local Coordinate = FirstUnit:GetCoordinate() -- Core.Point#COORDINATE
-                      if Squadron.Language == "EN" then
+                      if Squadron.Language == "EN" and self.SetSendPlayerMessages then
                        Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", intercepting bogeys at " .. Coordinate:ToStringA2A( DefenderGroup, nil, Squadron.Language ), DefenderGroup )
-                      elseif Squadron.Language == "RU" then
+                      elseif Squadron.Language == "RU" and self.SetSendPlayerMessages then
-                        Dispatcher:MessageToPlayers( Squadron, DefenderName .. ", перехват самолетов в " .. Coordinate:ToStringA2A( DefenderGroup, nil, Squadron.Language ), DefenderGroup )
+                        Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", перехватывая боги в " .. Coordinate:ToStringA2A( DefenderGroup, nil, Squadron.Language ), DefenderGroup )
-                      elseif Squadron.Language == "DE" then
+                      elseif Squadron.Language == "DE" and self.SetSendPlayerMessages then
                        Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", Eindringlinge abfangen bei" .. Coordinate:ToStringA2A( DefenderGroup, nil, Squadron.Language ), DefenderGroup )
                      end
                    end
@@ -3447,10 +3459,10 @@ do -- AI_A2A_DISPATCHER
                      local FirstUnit = AttackSetUnit:GetFirst()
                      local Coordinate = FirstUnit:GetCoordinate() -- Core.Point#COORDINATE
-                      if Squadron.Language == "EN" then
+                      if Squadron.Language == "EN" and self.SetSendPlayerMessages then
                        Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", engaging bogeys at " .. Coordinate:ToStringA2A( DefenderGroup, nil, Squadron.Language ), DefenderGroup )
-                      elseif Squadron.Language == "RU" then
+                      elseif Squadron.Language == "RU" and self.SetSendPlayerMessages then
-                        Dispatcher:MessageToPlayers( Squadron, DefenderName .. ", захватывающие самолеты в " .. Coordinate:ToStringA2A( DefenderGroup, nil, Squadron.Language ), DefenderGroup )
+                        Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", задействуя боги в " .. Coordinate:ToStringA2A( DefenderGroup, nil, Squadron.Language ), DefenderGroup )
                      end
                    end
                    self:GetParent( Fsm ).onafterEngage( self, DefenderGroup, From, Event, To, AttackSetUnit )
@@ -3465,10 +3477,10 @@ do -- AI_A2A_DISPATCHER
                    local Squadron = Dispatcher:GetSquadronFromDefender( DefenderGroup )
                    if Squadron then
-                      if Squadron.Language == "EN" then
+                      if Squadron.Language == "EN" and self.SetSendPlayerMessages then
                        Dispatcher:MessageToPlayers( Squadron,  DefenderName .. " returning to base.", DefenderGroup )
-                      elseif Squadron.Language == "RU" then
+                      elseif Squadron.Language == "RU" and self.SetSendPlayerMessages then
-                        Dispatcher:MessageToPlayers( Squadron, DefenderName .. ", возвращаясь на базу.", DefenderGroup )
+                        Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", возвращение на базу.", DefenderGroup )
                      end
                    end
                    Dispatcher:ClearDefenderTaskTarget( DefenderGroup )
@@ -3496,10 +3508,10 @@ do -- AI_A2A_DISPATCHER
                    local Dispatcher = self:GetDispatcher() -- #AI_A2A_DISPATCHER
                    local Squadron = Dispatcher:GetSquadronFromDefender( DefenderGroup )
-                    if Squadron.Language == "EN" then
+                      if Squadron.Language == "EN" and self.SetSendPlayerMessages then
                        Dispatcher:MessageToPlayers( Squadron,  DefenderName .. " landing at base.", DefenderGroup )
-                    elseif Squadron.Language == "RU" then
+                      elseif Squadron.Language == "RU" and self.SetSendPlayerMessages then
-                      Dispatcher:MessageToPlayers( Squadron, DefenderName .. ", захватывающие самолеты в посадка на базу.", DefenderGroup )
+                        Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", посадка на базу.", DefenderGroup )
                      end
                    if Action and Action == "Destroy" then
@@ -3928,11 +3940,7 @@ do
  --
  -- # Demo Missions
  --
-  -- ### [AI\_A2A\_GCICAP for Caucasus](https://github.com/FlightControl-Master/MOOSE_MISSIONS/tree/release-2-2-pre/AID%20-%20AI%20Dispatching/AID-200%20-%20AI_A2A%20-%20GCICAP%20Demonstration)
+  -- ### [Demo Missions](https://github.com/FlightControl-Master/MOOSE_MISSIONS/tree/master/AID%20-%20AI%20Dispatching/AID-A2A%20-%20AI%20A2A%20Dispatching)
  -- ### [AI\_A2A\_GCICAP for NTTR](https://github.com/FlightControl-Master/MOOSE_MISSIONS/tree/release-2-2-pre/AID%20-%20AI%20Dispatching/AID-210%20-%20NTTR%20AI_A2A_GCICAP%20Demonstration)
  -- ### [AI\_A2A\_GCICAP for Normandy](https://github.com/FlightControl-Master/MOOSE_MISSIONS/tree/release-2-2-pre/AID%20-%20AI%20Dispatching/AID-220%20-%20NORMANDY%20AI_A2A_GCICAP%20Demonstration)
  --
  -- ### [AI\_A2A\_GCICAP for beta testers](https://github.com/FlightControl-Master/MOOSE_MISSIONS/tree/master/AID%20-%20AI%20Dispatching)
  --
  -- ===
  --
--- a/Development/Moose/AI/AI_A2A_Gci.lua
+++ b/Development/Moose/AI/AI_A2A_Gci.lua
@@ -1,6 +1,6 @@
--- **AI** -- (R2.2) - Models the process of Ground Controlled Interception (GCI) for airplanes.
+--- **AI** - Models the process of Ground Controlled Interception (GCI) for airplanes.
 --
-- This is a class used in the @{AI_A2A_Dispatcher}.
+-- This is a class used in the @{AI.AI_A2A_Dispatcher}.
 --
 -- ===
 --
@@ -8,7 +8,7 @@
 --
 -- ===
 --
-- @module AI.AI_A2A_GCI
+-- @module AI.AI_A2A_Gci
 -- @image AI_Ground_Control_Intercept.JPG
@@ -89,9 +89,9 @@
 --
 -- ![Zone](..\Presentations\AI_GCI\Dia12.JPG)
 --
-- An optional @{Zone} can be set,
+-- An optional @{Core.Zone} can be set,
 -- that will define when the AI will engage with the detected airborne enemy targets.
-- Use the method @{AI.AI_Cap#AI_A2A_GCI.SetEngageZone}() to define that Zone.
+-- Use the method @{AI.AI_CAP#AI_CAP_ZONE.SetEngageZone}() to define that Zone.
 --
 -- ===
 --
@@ -153,7 +153,7 @@ end
 --- Evaluate the attack and create an AttackUnitTask list.
 -- @param #AI_A2A_GCI self
 -- @param Core.Set#SET_UNIT AttackSetUnit The set of units to attack.
-- @param Wrappper.Group#GROUP DefenderGroup The group of defenders.
+-- @param Wrapper.Group#GROUP DefenderGroup The group of defenders.
 -- @param #number EngageAltitude The altitude to engage the targets.
 -- @return #AI_A2A_GCI self
 function AI_A2A_GCI:CreateAttackUnitTasks( AttackSetUnit, DefenderGroup, EngageAltitude )
--- a/Development/Moose/AI/AI_A2A_Patrol.lua
+++ b/Development/Moose/AI/AI_A2A_Patrol.lua
@@ -1,4 +1,4 @@
--- **AI** -- (R2.2) - Models the process of air patrol of airplanes.
+--- **AI** - Models the process of air patrol of airplanes.
 -- 
 -- ===
 -- 
@@ -13,7 +13,7 @@
 --- @type AI_A2A_PATROL
 -- @extends AI.AI_A2A#AI_A2A
--- Implements the core functions to patrol a @{Zone} by an AI @{Wrapper.Group} or @{Wrapper.Group}.
+--- Implements the core functions to patrol a @{Core.Zone} by an AI @{Wrapper.Group} or @{Wrapper.Group}.
 -- 
 -- ![Process](..\Presentations\AI_PATROL\Dia3.JPG)
 -- 
@@ -102,7 +102,7 @@
 -- When the AI is out of fuel, it is required that a new AI is started, before the old AI can return to the home base.
 -- Therefore, with a parameter and a calculation of the distance to the home base, the fuel threshold is calculated.
 -- When the fuel threshold is reached, the AI will continue for a given time its patrol task in orbit, 
-- while a new AI is targetted to the AI_A2A_PATROL.
+-- while a new AI is targeted to the AI_A2A_PATROL.
 -- Once the time is finished, the old AI will return to the base.
 -- Use the method @{#AI_A2A_PATROL.ManageFuel}() to have this proces in place.
 -- 
@@ -122,7 +122,7 @@ AI_A2A_PATROL = {
 --- Creates a new AI_A2A_PATROL object
 -- @param #AI_A2A_PATROL self
 -- @param Wrapper.Group#GROUP AIPatrol The patrol group object.
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
 -- @param DCS#Altitude PatrolCeilingAltitude The highest altitude in meters where to execute the patrol.
 -- @param DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Group} in km/h.
@@ -264,7 +264,7 @@ function AI_A2A_PATROL:SetAltitude( PatrolFloorAltitude, PatrolCeilingAltitude )
 end
--- Defines a new patrol route using the @{Process_PatrolZone} parameters and settings.
+--- Defines a new patrol route using the @{AI.AI_Patrol#AI_PATROL_ZONE} parameters and settings.
 -- @param #AI_A2A_PATROL self
 -- @return #AI_A2A_PATROL self
 -- @param Wrapper.Group#GROUP AIPatrol The Group Object managed by the FSM.
@@ -287,7 +287,7 @@ function AI_A2A_PATROL:onafterPatrol( AIPatrol, From, Event, To )
 end
--- This statis method is called from the route path within the last task at the last waaypoint of the AIPatrol.
+--- This static method is called from the route path within the last task at the last waypoint of the AIPatrol.
 -- Note that this method is required, as triggers the next route when patrolling for the AIPatrol.
 -- @param Wrapper.Group#GROUP AIPatrol The AI group.
 -- @param #AI_A2A_PATROL Fsm The FSM.
@@ -302,7 +302,7 @@ function AI_A2A_PATROL.PatrolRoute( AIPatrol, Fsm )
 end
--- Defines a new patrol route using the @{Process_PatrolZone} parameters and settings.
+--- Defines a new patrol route using the @{AI.AI_Patrol#AI_PATROL_ZONE} parameters and settings.
 -- @param #AI_A2A_PATROL self
 -- @param Wrapper.Group#GROUP AIPatrol The Group managed by the FSM.
 -- @param #string From The From State string.
--- a/Development/Moose/AI/AI_A2G_BAI.lua
+++ b/Development/Moose/AI/AI_A2G_BAI.lua
@@ -1,6 +1,6 @@
--- **AI** -- Models the process of air to ground BAI engagement for airplanes and helicopters.
+--- **AI** - Models the process of air to ground BAI engagement for airplanes and helicopters.
 --
-- This is a class used in the @{AI_A2G_Dispatcher}.
+-- This is a class used in the @{AI.AI_A2G_Dispatcher}.
 -- 
 -- ===
 -- 
@@ -11,11 +11,8 @@
 -- @module AI.AI_A2G_BAI
 -- @image AI_Air_To_Ground_Engage.JPG
 --- @type AI_A2G_BAI
-- @extends AI.AI_A2A_Engage#AI_A2A_Engage
+-- @extends AI.AI_A2A_Engage#AI_A2A_Engage -- TODO: Documentation. This class does not exist, unable to determine what it extends.
 --- Implements the core functions to intercept intruders. Use the Engage trigger to intercept intruders.
 -- 
@@ -26,8 +23,6 @@ AI_A2G_BAI = {
  ClassName = "AI_A2G_BAI",
 }
 --- Creates a new AI_A2G_BAI object
 -- @param #AI_A2G_BAI self
 -- @param Wrapper.Group#GROUP AIGroup
@@ -36,7 +31,7 @@ AI_A2G_BAI = {
 -- @param DCS#Altitude EngageFloorAltitude The lowest altitude in meters where to execute the engagement.
 -- @param DCS#Altitude EngageCeilingAltitude The highest altitude in meters where to execute the engagement.
 -- @param DCS#AltitudeType EngageAltType The altitude type ("RADIO"=="AGL", "BARO"=="ASL"). Defaults to "RADIO".
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
 -- @param DCS#Altitude PatrolCeilingAltitude The highest altitude in meters where to execute the patrol.
 -- @param DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Group} in km/h.
@@ -53,7 +48,6 @@ function AI_A2G_BAI:New2( AIGroup, EngageMinSpeed, EngageMaxSpeed, EngageFloorAl
  return self
 end
 --- Creates a new AI_A2G_BAI object
 -- @param #AI_A2G_BAI self
 -- @param Wrapper.Group#GROUP AIGroup
@@ -61,7 +55,7 @@ end
 -- @param DCS#Speed  EngageMaxSpeed The maximum speed of the @{Wrapper.Group} in km/h when engaging a target.
 -- @param DCS#Altitude EngageFloorAltitude The lowest altitude in meters where to execute the engagement.
 -- @param DCS#Altitude EngageCeilingAltitude The highest altitude in meters where to execute the engagement.
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
 -- @param DCS#Altitude PatrolCeilingAltitude The highest altitude in meters where to execute the patrol.
 -- @param DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Group} in km/h.
@@ -76,7 +70,7 @@ end
 --- Evaluate the attack and create an AttackUnitTask list. 
 -- @param #AI_A2G_BAI self
 -- @param Core.Set#SET_UNIT AttackSetUnit The set of units to attack.
-- @param Wrappper.Group#GROUP DefenderGroup The group of defenders.
+-- @param Wrapper.Group#GROUP DefenderGroup The group of defenders.
 -- @param #number EngageAltitude The altitude to engage the targets.
 -- @return #AI_A2G_BAI self
 function AI_A2G_BAI:CreateAttackUnitTasks( AttackSetUnit, DefenderGroup, EngageAltitude )
@@ -95,5 +89,3 @@ function AI_A2G_BAI:CreateAttackUnitTasks( AttackSetUnit, DefenderGroup, EngageA
  return AttackUnitTasks
 end
--- a/Development/Moose/AI/AI_A2G_CAS.lua
+++ b/Development/Moose/AI/AI_A2G_CAS.lua
@@ -1,6 +1,6 @@
--- **AI** -- Models the process of air to ground engagement for airplanes and helicopters.
+--- **AI** - Models the process of air to ground engagement for airplanes and helicopters.
 --
-- This is a class used in the @{AI_A2G_Dispatcher}.
+-- This is a class used in the @{AI.AI_A2G_Dispatcher}.
 -- 
 -- ===
 -- 
@@ -11,11 +11,8 @@
 -- @module AI.AI_A2G_CAS
 -- @image AI_Air_To_Ground_Engage.JPG
 --- @type AI_A2G_CAS
-- @extends AI.AI_A2G_Patrol#AI_AIR_PATROL
+-- @extends AI.AI_A2G_Patrol#AI_AIR_PATROL TODO: Documentation. This class does not exist, unable to determine what it extends.
 --- Implements the core functions to intercept intruders. Use the Engage trigger to intercept intruders.
 -- 
@@ -26,8 +23,6 @@ AI_A2G_CAS = {
  ClassName = "AI_A2G_CAS",
 }
 --- Creates a new AI_A2G_CAS object
 -- @param #AI_A2G_CAS self
 -- @param Wrapper.Group#GROUP AIGroup
@@ -36,7 +31,7 @@ AI_A2G_CAS = {
 -- @param DCS#Altitude EngageFloorAltitude The lowest altitude in meters where to execute the engagement.
 -- @param DCS#Altitude EngageCeilingAltitude The highest altitude in meters where to execute the engagement.
 -- @param DCS#AltitudeType EngageAltType The altitude type ("RADIO"=="AGL", "BARO"=="ASL"). Defaults to "RADIO".
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
 -- @param DCS#Altitude PatrolCeilingAltitude The highest altitude in meters where to execute the patrol.
 -- @param DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Group} in km/h.
@@ -53,7 +48,6 @@ function AI_A2G_CAS:New2( AIGroup, EngageMinSpeed, EngageMaxSpeed, EngageFloorAl
  return self
 end
 --- Creates a new AI_A2G_CAS object
 -- @param #AI_A2G_CAS self
 -- @param Wrapper.Group#GROUP AIGroup
@@ -61,7 +55,7 @@ end
 -- @param DCS#Speed  EngageMaxSpeed The maximum speed of the @{Wrapper.Group} in km/h when engaging a target.
 -- @param DCS#Altitude EngageFloorAltitude The lowest altitude in meters where to execute the engagement.
 -- @param DCS#Altitude EngageCeilingAltitude The highest altitude in meters where to execute the engagement.
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
 -- @param DCS#Altitude PatrolCeilingAltitude The highest altitude in meters where to execute the patrol.
 -- @param DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Group} in km/h.
@@ -76,7 +70,7 @@ end
 --- Evaluate the attack and create an AttackUnitTask list. 
 -- @param #AI_A2G_CAS self
 -- @param Core.Set#SET_UNIT AttackSetUnit The set of units to attack.
-- @param Wrappper.Group#GROUP DefenderGroup The group of defenders.
+-- @param Wrapper.Group#GROUP DefenderGroup The group of defenders.
 -- @param #number EngageAltitude The altitude to engage the targets.
 -- @return #AI_A2G_CAS self
 function AI_A2G_CAS:CreateAttackUnitTasks( AttackSetUnit, DefenderGroup, EngageAltitude )
@@ -95,6 +89,3 @@ function AI_A2G_CAS:CreateAttackUnitTasks( AttackSetUnit, DefenderGroup, EngageA
  return AttackUnitTasks
 end
--- a/Development/Moose/AI/AI_A2G_Dispatcher.lua
+++ b/Development/Moose/AI/AI_A2G_Dispatcher.lua
@@ -175,7 +175,7 @@
 --    * polygon zones
 --    * moving zones
 -- 
-- Depending on the type of zone selected, a different @{Zone} object needs to be created from a ZONE_ class.
+-- Depending on the type of zone selected, a different @{Core.Zone} object needs to be created from a ZONE_ class.
 -- 
 -- 
 -- ## 12. Are moving defense coordinates possible?
@@ -1000,6 +1000,8 @@ do -- AI_A2G_DISPATCHER
 --    self.Detection:InitDetectVisual( true )
 --    self.Detection:SetRefreshTimeInterval( 30 )
    self.SetSendPlayerMessages = false --flash messages to players
    self:SetDefenseRadius()
    self:SetDefenseLimit( nil )
    self:SetDefenseApproach( AI_A2G_DISPATCHER.DefenseApproach.Random )
@@ -1387,7 +1389,7 @@ do -- AI_A2G_DISPATCHER
  --- Define a border area to simulate a **cold war** scenario.
  -- A **cold war** is one where Patrol aircraft patrol their territory but will not attack enemy aircraft or launch GCI aircraft unless enemy aircraft enter their territory. In other words the EWR may detect an enemy aircraft but will only send aircraft to attack it if it crosses the border.
  -- A **hot war** is one where Patrol aircraft will intercept any detected enemy aircraft and GCI aircraft will launch against detected enemy aircraft without regard for territory. In other words if the ground radar can detect the enemy aircraft then it will send Patrol and GCI aircraft to attack it.
-  -- If it's a cold war then the **borders of red and blue territory** need to be defined using a @{zone} object derived from @{Core.Zone#ZONE_BASE}. This method needs to be used for this.
+  -- If it's a cold war then the **borders of red and blue territory** need to be defined using a @{Core.Zone} object derived from @{Core.Zone#ZONE_BASE}. This method needs to be used for this.
  -- If a hot war is chosen then **no borders** actually need to be defined using the helicopter units other than it makes it easier sometimes for the mission maker to envisage where the red and blue territories roughly are. In a hot war the borders are effectively defined by the ground based radar coverage of a coalition. Set the noborders parameter to 1
  -- @param #AI_A2G_DISPATCHER self
  -- @param Core.Zone#ZONE_BASE BorderZone An object derived from ZONE_BASE, or a list of objects derived from ZONE_BASE.
@@ -2183,7 +2185,7 @@ do -- AI_A2G_DISPATCHER
  -- The Sead patrol will start a patrol of the aircraft at a specified zone, and will engage when commanded.
  -- @param #AI_A2G_DISPATCHER self
  -- @param #string SquadronName The squadron name.
-  -- @param Core.Zone#ZONE_BASE Zone The @{Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the Patrol will be executed.
+  -- @param Core.Zone#ZONE_BASE Zone The @{Core.Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the Patrol will be executed.
  -- @param #number PatrolMinSpeed (optional, default = 50% of max speed) The minimum speed at which the cap can be executed.
  -- @param #number PatrolMaxSpeed (optional, default = 75% of max speed) The maximum speed at which the cap can be executed.
  -- @param #number PatrolFloorAltitude (optional, default = 1000m ) The minimum altitude at which the cap can be executed.
@@ -2232,7 +2234,7 @@ do -- AI_A2G_DISPATCHER
  -- The Sead patrol will start a patrol of the aircraft at a specified zone, and will engage when commanded.
  -- @param #AI_A2G_DISPATCHER self
  -- @param #string SquadronName The squadron name.
-  -- @param Core.Zone#ZONE_BASE Zone The @{Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the Patrol will be executed.
+  -- @param Core.Zone#ZONE_BASE Zone The @{Core.Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the Patrol will be executed.
  -- @param #number FloorAltitude (optional, default = 1000m ) The minimum altitude at which the cap can be executed.
  -- @param #number CeilingAltitude (optional, default = 1500m ) The maximum altitude at which the cap can be executed.
  -- @param #number PatrolMinSpeed (optional, default = 50% of max speed) The minimum speed at which the cap can be executed.
@@ -2334,7 +2336,7 @@ do -- AI_A2G_DISPATCHER
  -- The Cas patrol will start a patrol of the aircraft at a specified zone, and will engage when commanded.
  -- @param #AI_A2G_DISPATCHER self
  -- @param #string SquadronName The squadron name.
-  -- @param Core.Zone#ZONE_BASE Zone The @{Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the Patrol will be executed.
+  -- @param Core.Zone#ZONE_BASE Zone The @{Core.Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the Patrol will be executed.
  -- @param #number PatrolMinSpeed (optional, default = 50% of max speed) The minimum speed at which the cap can be executed.
  -- @param #number PatrolMaxSpeed (optional, default = 75% of max speed) The maximum speed at which the cap can be executed.
  -- @param #number PatrolFloorAltitude (optional, default = 1000m ) The minimum altitude at which the cap can be executed.
@@ -2383,7 +2385,7 @@ do -- AI_A2G_DISPATCHER
  -- The Cas patrol will start a patrol of the aircraft at a specified zone, and will engage when commanded.
  -- @param #AI_A2G_DISPATCHER self
  -- @param #string SquadronName The squadron name.
-  -- @param Core.Zone#ZONE_BASE Zone The @{Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the Patrol will be executed.
+  -- @param Core.Zone#ZONE_BASE Zone The @{Core.Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the Patrol will be executed.
  -- @param #number FloorAltitude (optional, default = 1000m ) The minimum altitude at which the cap can be executed.
  -- @param #number CeilingAltitude (optional, default = 1500m ) The maximum altitude at which the cap can be executed.
  -- @param #number PatrolMinSpeed (optional, default = 50% of max speed) The minimum speed at which the cap can be executed.
@@ -2485,7 +2487,7 @@ do -- AI_A2G_DISPATCHER
  -- The Bai patrol will start a patrol of the aircraft at a specified zone, and will engage when commanded.
  -- @param #AI_A2G_DISPATCHER self
  -- @param #string SquadronName The squadron name.
-  -- @param Core.Zone#ZONE_BASE Zone The @{Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the Patrol will be executed.
+  -- @param Core.Zone#ZONE_BASE Zone The @{Core.Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the Patrol will be executed.
  -- @param #number PatrolMinSpeed (optional, default = 50% of max speed) The minimum speed at which the cap can be executed.
  -- @param #number PatrolMaxSpeed (optional, default = 75% of max speed) The maximum speed at which the cap can be executed.
  -- @param #number PatrolFloorAltitude (optional, default = 1000m ) The minimum altitude at which the cap can be executed.
@@ -2534,7 +2536,7 @@ do -- AI_A2G_DISPATCHER
  -- The Bai patrol will start a patrol of the aircraft at a specified zone, and will engage when commanded.
  -- @param #AI_A2G_DISPATCHER self
  -- @param #string SquadronName The squadron name.
-  -- @param Core.Zone#ZONE_BASE Zone The @{Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the Patrol will be executed.
+  -- @param Core.Zone#ZONE_BASE Zone The @{Core.Zone} object derived from @{Core.Zone#ZONE_BASE} that defines the zone wherein the Patrol will be executed.
  -- @param #number FloorAltitude (optional, default = 1000m ) The minimum altitude at which the cap can be executed.
  -- @param #number CeilingAltitude (optional, default = 1500m ) The maximum altitude at which the cap can be executed.
  -- @param #number PatrolMinSpeed (optional, default = 50% of max speed) The minimum speed at which the cap can be executed.
@@ -3718,7 +3720,9 @@ do -- AI_A2G_DISPATCHER
        local Squadron = Dispatcher:GetSquadronFromDefender( DefenderGroup )
        if Squadron then
          if self.SetSendPlayerMessages then
            Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", wheels up.", DefenderGroup )
          end
          AI_A2G_Fsm:Patrol() -- Engage on the TargetSetUnit
        end
      end
@@ -3730,7 +3734,7 @@ do -- AI_A2G_DISPATCHER
        local DefenderName = DefenderGroup:GetCallsign()
        local Dispatcher = self:GetDispatcher() -- #AI_A2G_DISPATCHER
        local Squadron = Dispatcher:GetSquadronFromDefender( DefenderGroup )
-        if Squadron then
+        if Squadron and self.SetSendPlayerMessages then
          Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", patrolling.", DefenderGroup )
        end
@@ -3749,10 +3753,11 @@ do -- AI_A2G_DISPATCHER
        if Squadron and AttackSetUnit:Count() > 0 then
          local FirstUnit = AttackSetUnit:GetFirst()
          local Coordinate = FirstUnit:GetCoordinate() -- Core.Point#COORDINATE
-  
+          if self.SetSendPlayerMessages then
            Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", moving on to ground target at " .. Coordinate:ToStringA2G( DefenderGroup ), DefenderGroup )
          end
        end
      end
      function AI_A2G_Fsm:OnAfterEngage( DefenderGroup, From, Event, To, AttackSetUnit )
        self:F({"Engage Route", DefenderGroup:GetName()})
@@ -3764,10 +3769,11 @@ do -- AI_A2G_DISPATCHER
        local FirstUnit = AttackSetUnit:GetFirst()
        if FirstUnit then
          local Coordinate = FirstUnit:GetCoordinate()
-  
+          if self.SetSendPlayerMessages then
            Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", engaging ground target at " .. Coordinate:ToStringA2G( DefenderGroup ), DefenderGroup )
          end
        end
      end
      function AI_A2G_Fsm:onafterRTB( DefenderGroup, From, Event, To )
        self:F({"RTB", DefenderGroup:GetName()})
@@ -3776,8 +3782,9 @@ do -- AI_A2G_DISPATCHER
        local DefenderName = DefenderGroup:GetCallsign()
        local Dispatcher = self:GetDispatcher() -- #AI_A2G_DISPATCHER
        local Squadron = Dispatcher:GetSquadronFromDefender( DefenderGroup )
        if self.SetSendPlayerMessages then
          Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", returning to base.", DefenderGroup )
-
+        end
        Dispatcher:ClearDefenderTaskTarget( DefenderGroup )
      end
@@ -3789,7 +3796,9 @@ do -- AI_A2G_DISPATCHER
        local DefenderName = DefenderGroup:GetCallsign()
        local Dispatcher = AI_A2G_Fsm:GetDispatcher() -- #AI_A2G_DISPATCHER
        local Squadron = Dispatcher:GetSquadronFromDefender( DefenderGroup )
        if self.SetSendPlayerMessages then
          Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", lost control." )
        end
        if DefenderGroup:IsAboveRunway() then
          Dispatcher:RemoveDefenderFromSquadron( Squadron, DefenderGroup )
          DefenderGroup:Destroy()
@@ -3804,8 +3813,9 @@ do -- AI_A2G_DISPATCHER
        local DefenderName = DefenderGroup:GetCallsign()
        local Dispatcher = self:GetDispatcher() -- #AI_A2G_DISPATCHER
        local Squadron = Dispatcher:GetSquadronFromDefender( DefenderGroup )
        if self.SetSendPlayerMessages then
          Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", landing at base.", DefenderGroup )
-
+        end
        if Action and Action == "Destroy" then
          Dispatcher:RemoveDefenderFromSquadron( Squadron, DefenderGroup )
          DefenderGroup:Destroy()
@@ -3861,7 +3871,9 @@ do -- AI_A2G_DISPATCHER
        self:F( { DefenderTarget = DefenderTarget } )
        if DefenderTarget then
          if self.SetSendPlayerMessages then
            Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", wheels up.", DefenderGroup )
          end
          AI_A2G_Fsm:EngageRoute( DefenderTarget.Set ) -- Engage on the TargetSetUnit
        end
      end
@@ -3876,9 +3888,10 @@ do -- AI_A2G_DISPATCHER
        if Squadron then
          local FirstUnit = AttackSetUnit:GetFirst()
          local Coordinate = FirstUnit:GetCoordinate() -- Core.Point#COORDINATE
-  
+           if self.SetSendPlayerMessages then
            Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", on route to ground target at " .. Coordinate:ToStringA2G( DefenderGroup ), DefenderGroup )
           end
        end
        self:GetParent(self).onafterEngageRoute( self, DefenderGroup, From, Event, To, AttackSetUnit )
      end
@@ -3892,10 +3905,11 @@ do -- AI_A2G_DISPATCHER
        local FirstUnit = AttackSetUnit:GetFirst()
        if FirstUnit then
          local Coordinate = FirstUnit:GetCoordinate()
-  
+          if self.SetSendPlayerMessages then
            Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", engaging ground target at " .. Coordinate:ToStringA2G( DefenderGroup ), DefenderGroup )
          end
        end
      end
      function AI_A2G_Fsm:onafterRTB( DefenderGroup, From, Event, To )
        self:F({"Defender RTB", DefenderGroup:GetName()})
@@ -3903,8 +3917,9 @@ do -- AI_A2G_DISPATCHER
        local DefenderName = DefenderGroup:GetCallsign()
        local Dispatcher = self:GetDispatcher() -- #AI_A2G_DISPATCHER
        local Squadron = Dispatcher:GetSquadronFromDefender( DefenderGroup )
        if self.SetSendPlayerMessages then
          Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", returning to base.", DefenderGroup )
-
+        end
        self:GetParent(self).onafterRTB( self, DefenderGroup, From, Event, To )
        Dispatcher:ClearDefenderTaskTarget( DefenderGroup )
@@ -3918,8 +3933,9 @@ do -- AI_A2G_DISPATCHER
        local DefenderName = DefenderGroup:GetCallsign()
        local Dispatcher = AI_A2G_Fsm:GetDispatcher() -- #AI_A2G_DISPATCHER
        local Squadron = Dispatcher:GetSquadronFromDefender( DefenderGroup )
-        --Dispatcher:MessageToPlayers( Squadron,  "Squadron " .. Squadron.Name .. ", " .. DefenderName .. " lost control." )
+        if self.SetSendPlayerMessages then
-
+          Dispatcher:MessageToPlayers( Squadron,  "Squadron " .. Squadron.Name .. ", " .. DefenderName .. " lost control." )
        end
        if DefenderGroup:IsAboveRunway() then
          Dispatcher:RemoveDefenderFromSquadron( Squadron, DefenderGroup )
          DefenderGroup:Destroy()
@@ -3934,8 +3950,9 @@ do -- AI_A2G_DISPATCHER
        local DefenderName = DefenderGroup:GetCallsign()
        local Dispatcher = self:GetDispatcher() -- #AI_A2G_DISPATCHER
        local Squadron = Dispatcher:GetSquadronFromDefender( DefenderGroup )
        if self.SetSendPlayerMessages then
          Dispatcher:MessageToPlayers( Squadron,  DefenderName .. ", landing at base.", DefenderGroup )
-
+        end
        if Action and Action == "Destroy" then
          Dispatcher:RemoveDefenderFromSquadron( Squadron, DefenderGroup )
          DefenderGroup:Destroy()
@@ -3975,7 +3992,7 @@ do -- AI_A2G_DISPATCHER
    local EvaluateDistance = AttackCoordinate:Get2DDistance( DefenseCoordinate )
    -- Now check if this coordinate is not in a danger zone, meaning, that the attack line is not crossing other coordinates.
-    -- (y1 – y2)x + (x2 – x1)y + (x1y2 – x2y1) = 0
+    -- (y1 - y2)x + (x2 - x1)y + (x1y2 - x2y1) = 0
    local c1 = DefenseCoordinate
    local c2 = AttackCoordinate
@@ -4036,7 +4053,7 @@ do -- AI_A2G_DISPATCHER
      for DefenderID, DefenderGroup in pairs( DefenderFriendlies or {} ) do
        -- Here we check if the defenders have a defense line to the attackers.
-        -- If the attackers are behind enemy lines or too close to an other defense line; then don´t engage.
+        -- If the attackers are behind enemy lines or too close to an other defense line; then don't engage.
        local DefenseCoordinate = DefenderGroup:GetCoordinate()
        local HasDefenseLine = self:HasDefenseLine( DefenseCoordinate, DetectedItem )
@@ -4729,6 +4746,14 @@ do
    self:Patrol( SquadronName, PatrolTaskType )    
  end
    --- Set flashing player messages on or off
  -- @param #AI_A2G_DISPATCHER self
  -- @param #boolean onoff Set messages on (true) or off (false)
  function AI_A2G_DISPATCHER:SetSendMessages( onoff )
      self.SetSendPlayerMessages = onoff
  end
 end
  --- Add resources to a Squadron
  -- @param #AI_A2G_DISPATCHER self
  -- @param #string Squadron The squadron name.
@@ -4752,6 +4777,3 @@ do
    end
    self:T({Squadron = Squadron.Name,SquadronResourceCount = Squadron.ResourceCount})
  end
 end
--- a/Development/Moose/AI/AI_A2G_SEAD.lua
+++ b/Development/Moose/AI/AI_A2G_SEAD.lua
@@ -1,6 +1,6 @@
--- **AI** -- Models the process of air to ground SEAD engagement for airplanes and helicopters.
+--- **AI** - Models the process of air to ground SEAD engagement for airplanes and helicopters.
 --
-- This is a class used in the @{AI_A2G_Dispatcher}.
+-- This is a class used in the @{AI.AI_A2G_Dispatcher}.
 -- 
 -- ===
 -- 
@@ -65,9 +65,9 @@
 -- 
 -- ![Zone](..\Presentations\AI_GCI\Dia12.JPG)
 -- 
-- An optional @{Zone} can be set, 
+-- An optional @{Core.Zone} can be set, 
 -- that will define when the AI will engage with the detected airborne enemy targets.
-- Use the method @{AI.AI_Cap#AI_A2G_SEAD.SetEngageZone}() to define that Zone.
+-- Use the method @{AI.AI_CAP#AI_CAP_ZONE.SetEngageZone}() to define that Zone. -- TODO: Documentation. Check that this is actually correct. The originally referenced class does not exist.
 --  
 -- ===
 -- 
@@ -76,8 +76,6 @@ AI_A2G_SEAD = {
  ClassName = "AI_A2G_SEAD",
 }
 --- Creates a new AI_A2G_SEAD object
 -- @param #AI_A2G_SEAD self
 -- @param Wrapper.Group#GROUP AIGroup
@@ -86,7 +84,7 @@ AI_A2G_SEAD = {
 -- @param DCS#Altitude EngageFloorAltitude The lowest altitude in meters where to execute the engagement.
 -- @param DCS#Altitude EngageCeilingAltitude The highest altitude in meters where to execute the engagement.
 -- @param DCS#AltitudeType EngageAltType The altitude type ("RADIO"=="AGL", "BARO"=="ASL"). Defaults to "RADIO".
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
 -- @param DCS#Altitude PatrolCeilingAltitude The highest altitude in meters where to execute the patrol.
 -- @param DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Group} in km/h.
@@ -111,7 +109,7 @@ end
 -- @param DCS#Speed  EngageMaxSpeed The maximum speed of the @{Wrapper.Group} in km/h when engaging a target.
 -- @param DCS#Altitude EngageFloorAltitude The lowest altitude in meters where to execute the engagement.
 -- @param DCS#Altitude EngageCeilingAltitude The highest altitude in meters where to execute the engagement.
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
 -- @param DCS#Altitude PatrolCeilingAltitude The highest altitude in meters where to execute the patrol.
 -- @param DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Group} in km/h.
@@ -127,7 +125,7 @@ end
 --- Evaluate the attack and create an AttackUnitTask list. 
 -- @param #AI_A2G_SEAD self
 -- @param Core.Set#SET_UNIT AttackSetUnit The set of units to attack.
-- @param Wrappper.Group#GROUP DefenderGroup The group of defenders.
+-- @param Wrapper.Group#GROUP DefenderGroup The group of defenders.
 -- @param #number EngageAltitude The altitude to engage the targets.
 -- @return #AI_A2G_SEAD self
 function AI_A2G_SEAD:CreateAttackUnitTasks( AttackSetUnit, DefenderGroup, EngageAltitude )
--- a/Development/Moose/AI/AI_Air.lua
+++ b/Development/Moose/AI/AI_Air.lua
@@ -374,7 +374,7 @@ end
 --- When the AI is out of fuel, it is required that a new AI is started, before the old AI can return to the home base.
 -- Therefore, with a parameter and a calculation of the distance to the home base, the fuel threshold is calculated.
-- When the fuel threshold is reached, the AI will continue for a given time its patrol task in orbit, while a new AIControllable is targetted to the AI_AIR.
+-- When the fuel threshold is reached, the AI will continue for a given time its patrol task in orbit, while a new AIControllable is targeted to the AI_AIR.
 -- Once the time is finished, the old AI will return to the base.
 -- @param #AI_AIR self
 -- @param #number FuelThresholdPercentage The threshold in percentage (between 0 and 1) when the AIControllable is considered to get out of fuel.
@@ -409,7 +409,7 @@ end
--- Defines a new patrol route using the @{Process_PatrolZone} parameters and settings.
+--- Defines a new patrol route using the @{AI.AI_Patrol#AI_PATROL_ZONE} parameters and settings.
 -- @param #AI_AIR self
 -- @return #AI_AIR self
 -- @param Wrapper.Controllable#CONTROLLABLE Controllable The Controllable Object managed by the FSM.
@@ -598,7 +598,6 @@ end
 function AI_AIR:onafterRTB( AIGroup, From, Event, To )
  self:F( { AIGroup, From, Event, To } )
    if AIGroup and AIGroup:IsAlive() then
    self:T( "Group " .. AIGroup:GetName() .. " ... RTB! ( " .. self:GetState() .. " )" )
--- a/Development/Moose/AI/AI_Air_Dispatcher.lua
+++ b/Development/Moose/AI/AI_Air_Dispatcher.lua
@@ -1,4 +1,4 @@
--- **AI** - Create an automated AIR defense system based on a detection network of reconnaissance vehicles and air units, coordinating SEAD, BAI and CAP operations.
+--- **AI** - Create an automated AIR defense system with reconnaissance units, coordinating SEAD, BAI and CAP operations.
 -- 
 -- ===
 -- 
@@ -24,7 +24,7 @@
 -- 
 -- ## Missions:
 -- 
-- [AID-AIR - AI AIR Dispatching](https://github.com/FlightControl-Master/MOOSE_MISSIONS/tree/master/AID%20-%20AI%20Dispatching/AID-AIR%20-%20AI%20AIR%20Dispatching)
+-- [AID-AIR - AI AIR Dispatching](https://github.com/FlightControl-Master/MOOSE_MISSIONS/tree/master/AID%20-%20AI%20Dispatching)
 -- 
 -- ===
 -- 
@@ -88,7 +88,7 @@
 -- 
 -- ## 4. How do the defenses decide **when and where to engage** on approaching enemy units?
 -- 
-- The AIR dispacher needs you to setup (various) defense coordinates, which are strategic positions in the battle field to be defended. 
+-- The AIR dispatcher needs you to setup (various) defense coordinates, which are strategic positions in the battle field to be defended. 
 -- Any ground based enemy approaching within the proximity of such a defense point, may trigger for a defensive action by friendly air units.
 -- 
 -- There are 2 important parameters that play a role in the defensive decision making: defensiveness and reactivity.
@@ -108,7 +108,7 @@
 -- ## 5. Are defense coordinates and defense reactivity the only parameters?
 -- 
 -- No, depending on the target type, and the threat level of the target, the probability of defense will be higher.
-- In other words, when a SAM-10 radar emitter is detected, its probabilty for defense will be much higher than when a BMP-1 vehicle is
+-- In other words, when a SAM-10 radar emitter is detected, its probability for defense will be much higher than when a BMP-1 vehicle is
 -- detected, even when both enemies are at the same distance from a defense coordinate.
 -- This will ensure optimal defenses, SEAD tasks will be launched much more quicker against engaging radar emitters, to ensure air superiority.
 -- Approaching main battle tanks will be engaged much faster, than a group of approaching trucks.
@@ -117,12 +117,12 @@
 -- ## 6. Which Squadrons will I create and which name will I give each Squadron?
 -- 
 -- The AIR defense system works with **Squadrons**. Each Squadron must be given a unique name, that forms the **key** to the squadron.
-- Several options and activities can be set per Squadron. A free format name can be given, but always ensure that the name is meaningfull 
+-- Several options and activities can be set per Squadron. A free format name can be given, but always ensure that the name is meaningful 
 -- for your mission, and remember that squadron names are used for communication to the players of your mission.
 -- 
 -- There are mainly 3 types of defenses: **SEAD**, **CAS** and **BAI**.
 -- 
-- Suppression of Air Defenses (SEAD) are effective agains radar emitters. Close Air Support (CAS) is launched when the enemy is close near friendly units.
+-- Suppression of Air Defenses (SEAD) are effective against radar emitters. Close Air Support (CAS) is launched when the enemy is close near friendly units.
 -- Battleground Air Interdiction (BAI) tasks are launched when there are no friendlies around.
 -- 
 -- Depending on the defense type, different payloads will be needed. See further points on squadron definition.
@@ -174,13 +174,13 @@
 --    * polygon zones
 --    * moving zones
 -- 
-- Depending on the type of zone selected, a different @{Zone} object needs to be created from a ZONE_ class.
+-- Depending on the type of zone selected, a different @{Core.Zone} object needs to be created from a ZONE_ class.
 -- 
 -- 
 -- ## 12. Are moving defense coordinates possible?
 -- 
 -- Yes, different COORDINATE types are possible to be used.
-- The COORDINATE_UNIT will help you to specify a defense coodinate that is attached to a moving unit.
+-- The COORDINATE_UNIT will help you to specify a defense coordinate that is attached to a moving unit.
 -- 
 -- 
 -- ## 13. How much defense coordinates do I need to create?
@@ -214,7 +214,7 @@
 --    * From a parking spot with running engines
 --    * From a parking spot with cold engines
 -- 
-- **The default takeoff method is staight in the air.**
+-- **The default takeoff method is straight in the air.**
 -- This takeoff method is the most useful if you want to avoid airplane clutter at airbases!
 -- But it is the least realistic one!
 -- 
@@ -236,10 +236,10 @@
 -- 
 -- For each Squadron, depending on the helicopter or airplane type (modern, old) and payload, which overhead is required to provide any defense?
 -- 
-- In other words, if **X** enemy ground units are detected, how many **Y** defense helicpters or airplanes need to engage (per squadron)?
+-- In other words, if **X** enemy ground units are detected, how many **Y** defense helicopters or airplanes need to engage (per squadron)?
 -- The **Y** is dependent on the type of airplane (era), payload, fuel levels, skills etc.
 -- But the most important factor is the payload, which is the amount of AIR weapons the defense can carry to attack the enemy ground units.
-- For example, a Ka-50 can carry 16 vikrs, that means, that it potentially can destroy at least 8 ground units without a reload of ammunication.
+-- For example, a Ka-50 can carry 16 vikrs, that means, that it potentially can destroy at least 8 ground units without a reload of ammunition.
 -- That means, that one defender can destroy more enemy ground units. 
 -- Thus, the overhead is a **factor** that will calculate dynamically how many **Y** defenses will be required based on **X** attackers detected.
 -- 
@@ -259,7 +259,7 @@
 -- 
 -- ### Author: **FlightControl** rework of GCICAP + introduction of new concepts (squadrons).
 -- 
-- @module AI.AI_AIR_Dispatcher
+-- @module AI.AI_Air_Dispatcher
 -- @image AI_Air_To_Ground_Dispatching.JPG
@@ -279,7 +279,7 @@ do -- AI_AIR_DISPATCHER
  -- Multiple defense coordinates can be setup. Defense coordinates can be strategic or tactical positions or references to strategic units or scenery.
  -- The AIR dispatcher will evaluate every x seconds the tactical situation around each defense coordinate. When a defense coordinate
  -- is under threat, it will communicate through the command center that defensive actions need to be taken and will launch groups of air units for defense.
-  -- The level of threat to the defense coordinate varyies upon the strength and types of the enemy units, the distance to the defense point, and the defensiveness parameters.
+  -- The level of threat to the defense coordinate varies upon the strength and types of the enemy units, the distance to the defense point, and the defensiveness parameters.
  -- Defensive actions are taken through probability, but the closer and the more threat the enemy poses to the defense coordinate, the faster it will be attacked by friendly AIR units.
  -- 
  -- Please study carefully the underlying explanations how to setup and use this module, as it has many features.
@@ -328,7 +328,7 @@ do -- AI_AIR_DISPATCHER
  -- By spawning in dynamically additional recce, you can ensure that there is sufficient reconnaissance coverage so the defense mechanism is continuously
  -- alerted of new enemy ground targets.
  -- 
-  -- The following example defens a new reconnaissance network using a @{Functional.Detection#DETECTION_AREAS} object.
+  -- The following example defense a new reconnaissance network using a @{Functional.Detection#DETECTION_AREAS} object.
  -- 
  --        -- Define a SET_GROUP object that builds a collection of groups that define the recce network.
  --        -- Here we build the network with all the groups that have a name starting with CCCP Recce.
@@ -473,7 +473,7 @@ do -- AI_AIR_DISPATCHER
  --     the mission designer can choose to increase or reduce the amount of planes spawned.
  -- 
  -- The method @{#AI_AIR_DISPATCHER.SetSquadron}() defines for you a new squadron. 
-  -- The provided parameters are the squadron name, airbase name and a list of template prefixe, and a number that indicates the amount of resources.
+  -- The provided parameters are the squadron name, airbase name and a list of template prefixes, and a number that indicates the amount of resources.
  -- 
  -- For example, this defines 3 new squadrons:
  -- 
@@ -619,7 +619,7 @@ do -- AI_AIR_DISPATCHER
  -- Depending on the demand of requested takeoffs by the AIR dispatcher, an airfield can become overloaded. Too many aircraft need to be taken
  -- off at the same time, which will result in clutter as described above. In order to better control this behaviour, a takeoff scheduler is implemented,
  -- which can be used to control how many aircraft are ordered for takeoff between specific time intervals.
-  -- The takeff intervals can be specified per squadron, which make sense, as each squadron have a "home" airfield.
+  -- The takeoff intervals can be specified per squadron, which make sense, as each squadron have a "home" airfield.
  -- 
  -- For this purpose, the method @{#AI_AIR_DISPATCHER.SetSquadronTakeOffInterval}() can be used to specify the takeoff intervals of 
  -- aircraft groups per squadron to avoid cluttering of aircraft at airbases.
@@ -1021,7 +1021,7 @@ do -- AI_AIR_DISPATCHER
    -- @param #string From The From State string.
    -- @param #string Event The Event string.
    -- @param #string To The To State string.
-    -- @param Tasking.Task_AIR#AI_AIR Task
+    -- @param AI.AI_Air#AI_AIR Task
    -- @param Wrapper.Unit#UNIT TaskUnit
    -- @param #string PlayerName
@@ -1224,7 +1224,7 @@ do -- AI_AIR_DISPATCHER
    self:I( "Captured " .. AirbaseName )
-    -- Now search for all squadrons located at the airbase, and sanatize them.
+    -- Now search for all squadrons located at the airbase, and sanitize them.
    for SquadronName, Squadron in pairs( self.DefenderSquadrons ) do
      if Squadron.AirbaseName == AirbaseName then
        Squadron.ResourceCount = -999 -- The base has been captured, and the resources are eliminated. No more spawning.
@@ -1376,7 +1376,7 @@ do -- AI_AIR_DISPATCHER
  --- Define a border area to simulate a **cold war** scenario.
  -- A **cold war** is one where Patrol aircraft patrol their territory but will not attack enemy aircraft or launch GCI aircraft unless enemy aircraft enter their territory. In other words the EWR may detect an enemy aircraft but will only send aircraft to attack it if it crosses the border.
  -- A **hot war** is one where Patrol aircraft will intercept any detected enemy aircraft and GCI aircraft will launch against detected enemy aircraft without regard for territory. In other words if the ground radar can detect the enemy aircraft then it will send Patrol and GCI aircraft to attack it.
-  -- If it's a cold war then the **borders of red and blue territory** need to be defined using a @{zone} object derived from @{Core.Zone#ZONE_BASE}. This method needs to be used for this.
+  -- If it's a cold war then the **borders of red and blue territory** need to be defined using a @{Core.Zone} object derived from @{Core.Zone#ZONE_BASE}. This method needs to be used for this.
  -- If a hot war is chosen then **no borders** actually need to be defined using the helicopter units other than it makes it easier sometimes for the mission maker to envisage where the red and blue territories roughly are. In a hot war the borders are effectively defined by the ground based radar coverage of a coalition. Set the noborders parameter to 1
  -- @param #AI_AIR_DISPATCHER self
  -- @param Core.Zone#ZONE_BASE BorderZone An object derived from ZONE_BASE, or a list of objects derived from ZONE_BASE.
--- a/Development/Moose/AI/AI_Air_Engage.lua
+++ b/Development/Moose/AI/AI_Air_Engage.lua
@@ -1,6 +1,6 @@
--- **AI** -- Models the process of air to ground engagement for airplanes and helicopters.
+--- **AI** - Models the process of air to ground engagement for airplanes and helicopters.
 --
-- This is a class used in the @{AI_A2G_Dispatcher}.
+-- This is a class used in the @{AI.AI_A2G_Dispatcher}.
 -- 
 -- ===
 -- 
@@ -65,9 +65,9 @@
 -- 
 -- ![Zone](..\Presentations\AI_GCI\Dia12.JPG)
 -- 
-- An optional @{Zone} can be set, 
+-- An optional @{Core.Zone} can be set, 
 -- that will define when the AI will engage with the detected airborne enemy targets.
-- Use the method @{AI.AI_Cap#AI_AIR_ENGAGE.SetEngageZone}() to define that Zone.
+-- Use the method @{AI.AI_CAP#AI_AIR_ENGAGE.SetEngageZone}() to define that Zone.
 --  
 -- ===
 -- 
--- a/Development/Moose/AI/AI_Air_Patrol.lua
+++ b/Development/Moose/AI/AI_Air_Patrol.lua
@@ -1,4 +1,4 @@
--- **AI** -- Models the process of A2G patrolling and engaging ground targets for airplanes and helicopters.
+--- **AI** - Models the process of A2G patrolling and engaging ground targets for airplanes and helicopters.
 --
 -- ===
 -- 
@@ -12,8 +12,7 @@
 --- @type AI_AIR_PATROL
 -- @extends AI.AI_Air#AI_AIR
-
+--- The AI_AIR_PATROL class implements the core functions to patrol a @{Core.Zone} by an AI @{Wrapper.Group}
 --- The AI_AIR_PATROL class implements the core functions to patrol a @{Zone} by an AI @{Wrapper.Group} or @{Wrapper.Group} 
 -- and automatically engage any airborne enemies that are within a certain range or within a certain zone.
 -- 
 -- ![Process](..\Presentations\AI_CAP\Dia3.JPG)
@@ -86,9 +85,9 @@
 -- 
 -- ![Zone](..\Presentations\AI_CAP\Dia12.JPG)
 -- 
-- An optional @{Zone} can be set, 
+-- An optional @{Core.Zone} can be set, 
 -- that will define when the AI will engage with the detected airborne enemy targets.
-- Use the method @{AI.AI_Cap#AI_AIR_PATROL.SetEngageZone}() to define that Zone.
+-- Use the method @{AI.AI_CAP#AI_AIR_PATROL.SetEngageZone}() to define that Zone.
 --  
 -- ===
 -- 
@@ -101,7 +100,7 @@ AI_AIR_PATROL = {
 -- @param #AI_AIR_PATROL self
 -- @param AI.AI_Air#AI_AIR AI_Air The AI_AIR FSM.
 -- @param Wrapper.Group#GROUP AIGroup The AI group.
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Altitude PatrolFloorAltitude (optional, default = 1000m ) The lowest altitude in meters where to execute the patrol.
 -- @param DCS#Altitude PatrolCeilingAltitude (optional, default = 1500m ) The highest altitude in meters where to execute the patrol.
 -- @param DCS#Speed  PatrolMinSpeed (optional, default = 50% of max speed) The minimum speed of the @{Wrapper.Group} in km/h.
@@ -198,13 +197,11 @@ function AI_AIR_PATROL:New( AI_Air, AIGroup, PatrolZone, PatrolFloorAltitude, Pa
  -- @param #AI_AIR_PATROL self
  -- @param #number Delay The delay in seconds.
  self:AddTransition( "*", "Reset", "Patrolling" ) -- FSM_CONTROLLABLE Transition for type #AI_AIR_PATROL.
  return self
 end
 --- Set the Engage Range when the AI will engage with airborne enemies. 
 -- @param #AI_AIR_PATROL self
 -- @param #number EngageRange The Engage Range.
@@ -247,9 +244,7 @@ function AI_AIR_PATROL:SetRaceTrackPattern(LegMin, LegMax, HeadingMin, HeadingMa
 end
-
+--- Defines a new patrol route using the @{AI.AI_Patrol#AI_PATROL_ZONE} parameters and settings.
 --- Defines a new patrol route using the @{Process_PatrolZone} parameters and settings.
 -- @param #AI_AIR_PATROL self
 -- @return #AI_AIR_PATROL self
 -- @param Wrapper.Group#GROUP AIPatrol The Group Object managed by the FSM.
@@ -271,7 +266,7 @@ function AI_AIR_PATROL:onafterPatrol( AIPatrol, From, Event, To )
  )
 end
--- This statis method is called from the route path within the last task at the last waaypoint of the AIPatrol.
+--- This static method is called from the route path within the last task at the last waypoint of the AIPatrol.
 -- Note that this method is required, as triggers the next route when patrolling for the AIPatrol.
 -- @param Wrapper.Group#GROUP AIPatrol The AI group.
 -- @param #AI_AIR_PATROL Fsm The FSM.
@@ -285,7 +280,7 @@ function AI_AIR_PATROL.___PatrolRoute( AIPatrol, Fsm )
 end
--- Defines a new patrol route using the @{Process_PatrolZone} parameters and settings.
+--- Defines a new patrol route using the @{AI.AI_Patrol#AI_PATROL_ZONE} parameters and settings.
 -- @param #AI_AIR_PATROL self
 -- @param Wrapper.Group#GROUP AIPatrol The Group managed by the FSM.
 -- @param #string From The From State string.
@@ -300,7 +295,6 @@ function AI_AIR_PATROL:onafterPatrolRoute( AIPatrol, From, Event, To )
    return
  end
  if AIPatrol and  AIPatrol:IsAlive() then
    local PatrolRoute = {}
@@ -386,7 +380,9 @@ function AI_AIR_PATROL:onafterPatrolRoute( AIPatrol, From, Event, To )
 end
--- @param Wrapper.Group#GROUP AIPatrol
+--- Resumes the AIPatrol
 -- @param Wrapper.Group#GROUP AIPatrol
 -- @param Core.Fsm#FSM Fsm
 function AI_AIR_PATROL.Resume( AIPatrol, Fsm )
  AIPatrol:F( { "AI_AIR_PATROL.Resume:", AIPatrol:GetName() } )
--- a/Development/Moose/AI/AI_Air_Squadron.lua
+++ b/Development/Moose/AI/AI_Air_Squadron.lua
@@ -1,6 +1,6 @@
 --- **AI** - Models squadrons for airplanes and helicopters.
 --
-- This is a class used in the @{AI_Air_Dispatcher} and derived dispatcher classes.
+-- This is a class used in the @{AI.AI_Air_Dispatcher} and derived dispatcher classes.
 -- 
 -- ===
 -- 
--- a/Development/Moose/AI/AI_BAI.lua
+++ b/Development/Moose/AI/AI_BAI.lua
@@ -1,4 +1,4 @@
--- **AI** -- Peform Battlefield Area Interdiction (BAI) within an engagement zone.
+--- **AI** - Peform Battlefield Area Interdiction (BAI) within an engagement zone.
 --
 -- **Features:**
 -- 
@@ -26,17 +26,17 @@
 -- 
 -- ===
 --
-- @module AI.AI_Bai
+-- @module AI.AI_BAI
 -- @image AI_Battlefield_Air_Interdiction.JPG
 --- AI_BAI_ZONE class
 -- @type AI_BAI_ZONE
 -- @field Wrapper.Controllable#CONTROLLABLE AIControllable The @{Wrapper.Controllable} patrolling.
-- @field Core.Zone#ZONE_BASE TargetZone The @{Zone} where the patrol needs to be executed.
+-- @field Core.Zone#ZONE_BASE TargetZone The @{Core.Zone} where the patrol needs to be executed.
 -- @extends AI.AI_Patrol#AI_PATROL_ZONE
--- Implements the core functions to provide BattleGround Air Interdiction in an Engage @{Zone} by an AIR @{Wrapper.Controllable} or @{Wrapper.Group}.
+--- Implements the core functions to provide BattleGround Air Interdiction in an Engage @{Core.Zone} by an AIR @{Wrapper.Controllable} or @{Wrapper.Group}.
 -- 
 -- The AI_BAI_ZONE runs a process. It holds an AI in a Patrol Zone and when the AI is commanded to engage, it will fly to an Engage Zone.
 -- 
@@ -142,7 +142,7 @@ AI_BAI_ZONE = {
 --- Creates a new AI_BAI_ZONE object
 -- @param #AI_BAI_ZONE self
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
 -- @param DCS#Altitude PatrolCeilingAltitude The highest altitude in meters where to execute the patrol.
 -- @param DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Controllable} in km/h.
@@ -566,7 +566,7 @@ function AI_BAI_ZONE:onafterEngage( Controllable, From, Event, To,
    EngageRoute[#EngageRoute].task = Controllable:TaskCombo( AttackTasks )
-    --- Define a random point in the @{Zone}. The AI will fly to that point within the zone.
+    --- Define a random point in the @{Core.Zone}. The AI will fly to that point within the zone.
      --- Find a random 2D point in EngageZone.
    local ToTargetVec2 = self.EngageZone:GetRandomVec2()
--- a/Development/Moose/AI/AI_Balancer.lua
+++ b/Development/Moose/AI/AI_Balancer.lua
@@ -1,4 +1,4 @@
--- **AI** -- Balance player slots with AI to create an engaging simulation environment, independent of the amount of players. 
+--- **AI** - Balance player slots with AI to create an engaging simulation environment, independent of the amount of players. 
 -- 
 -- **Features:**
 -- 
--- a/Development/Moose/AI/AI_CAP.lua
+++ b/Development/Moose/AI/AI_CAP.lua
@@ -1,4 +1,4 @@
--- **AI** -- Perform Combat Air Patrolling (CAP) for airplanes.
+--- **AI** - Perform Combat Air Patrolling (CAP) for airplanes.
 --
 -- **Features:**
 -- 
@@ -7,7 +7,6 @@
 --   * Manage a fuel threshold to RTB on time.
 --   * Engage the enemy when detected.
 --
 --
 -- ===
 -- 
 -- ### [Demo Missions](https://github.com/FlightControl-Master/MOOSE_MISSIONS/tree/master/CAP%20-%20Combat%20Air%20Patrol)
@@ -29,17 +28,15 @@
 -- 
 -- ===       
 --
-- @module AI.AI_Cap
+-- @module AI.AI_CAP
 -- @image AI_Combat_Air_Patrol.JPG
 --- @type AI_CAP_ZONE
 -- @field Wrapper.Controllable#CONTROLLABLE AIControllable The @{Wrapper.Controllable} patrolling.
-- @field Core.Zone#ZONE_BASE TargetZone The @{Zone} where the patrol needs to be executed.
+-- @field Core.Zone#ZONE_BASE TargetZone The @{Core.Zone} where the patrol needs to be executed.
 -- @extends AI.AI_Patrol#AI_PATROL_ZONE
-
+--- Implements the core functions to patrol a @{Core.Zone} by an AI @{Wrapper.Controllable} or @{Wrapper.Group} 
 --- Implements the core functions to patrol a @{Zone} by an AI @{Wrapper.Controllable} or @{Wrapper.Group} 
 -- and automatically engage any airborne enemies that are within a certain range or within a certain zone.
 -- 
 -- ![Process](..\Presentations\AI_CAP\Dia3.JPG)
@@ -106,15 +103,15 @@
 -- that will define when the AI will engage with the detected airborne enemy targets.
 -- The range can be beyond or smaller than the range of the Patrol Zone.
 -- The range is applied at the position of the AI.
-- Use the method @{AI.AI_CAP#AI_CAP_ZONE.SetEngageRange}() to define that range.
+-- Use the method @{#AI_CAP_ZONE.SetEngageRange}() to define that range.
 --
 -- ## 4. Set the Zone of Engagement
 -- 
 -- ![Zone](..\Presentations\AI_CAP\Dia12.JPG)
 -- 
-- An optional @{Zone} can be set, 
+-- An optional @{Core.Zone} can be set, 
 -- that will define when the AI will engage with the detected airborne enemy targets.
-- Use the method @{AI.AI_Cap#AI_CAP_ZONE.SetEngageZone}() to define that Zone.
+-- Use the method @{#AI_CAP_ZONE.SetEngageZone}() to define that Zone.
 --  
 -- ===
 -- 
@@ -123,11 +120,9 @@ AI_CAP_ZONE = {
  ClassName = "AI_CAP_ZONE",
 }
 --- Creates a new AI_CAP_ZONE object
 -- @param #AI_CAP_ZONE self
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
 -- @param DCS#Altitude PatrolCeilingAltitude The highest altitude in meters where to execute the patrol.
 -- @param DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Controllable} in km/h.
@@ -243,7 +238,6 @@ function AI_CAP_ZONE:New( PatrolZone, PatrolFloorAltitude, PatrolCeilingAltitude
  -- @param #AI_CAP_ZONE self
  -- @param #number Delay The delay in seconds.
  self:AddTransition( "Engaging", "Abort", "Patrolling" ) -- FSM_CONTROLLABLE Transition for type #AI_CAP_ZONE.
  --- OnBefore Transition Handler for Event Abort.
@@ -303,7 +297,6 @@ function AI_CAP_ZONE:New( PatrolZone, PatrolFloorAltitude, PatrolCeilingAltitude
  return self
 end
 --- Set the Engage Zone which defines where the AI will engage bogies. 
 -- @param #AI_CAP_ZONE self
 -- @param Core.Zone#ZONE EngageZone The zone where the AI is performing CAP.
@@ -346,7 +339,6 @@ function AI_CAP_ZONE:onafterStart( Controllable, From, Event, To )
 end
 --- @param AI.AI_CAP#AI_CAP_ZONE 
 -- @param Wrapper.Group#GROUP EngageGroup
 function AI_CAP_ZONE.EngageRoute( EngageGroup, Fsm )
@@ -358,8 +350,6 @@ function AI_CAP_ZONE.EngageRoute( EngageGroup, Fsm )
  end
 end
 --- @param #AI_CAP_ZONE self
 -- @param Wrapper.Controllable#CONTROLLABLE Controllable The Controllable Object managed by the FSM.
 -- @param #string From The From State string.
@@ -400,7 +390,6 @@ function AI_CAP_ZONE:onafterDetected( Controllable, From, Event, To )
  end
 end
 --- @param #AI_CAP_ZONE self
 -- @param Wrapper.Controllable#CONTROLLABLE Controllable The Controllable Object managed by the FSM.
 -- @param #string From The From State string.
@@ -411,9 +400,6 @@ function AI_CAP_ZONE:onafterAbort( Controllable, From, Event, To )
  self:__Route( 1 )
 end
 --- @param #AI_CAP_ZONE self
 -- @param Wrapper.Controllable#CONTROLLABLE Controllable The Controllable Object managed by the FSM.
 -- @param #string From The From State string.
@@ -428,9 +414,7 @@ function AI_CAP_ZONE:onafterEngage( Controllable, From, Event, To )
    --- Calculate the current route point.
    local CurrentVec2 = self.Controllable:GetVec2()
-    if not CurrentVec2 then -- flight dead at this point
+    if not CurrentVec2 then return self end
      return self 
    end
    --DONE: Create GetAltitude function for GROUP, and delete GetUnit(1).
    local CurrentAltitude = self.Controllable:GetAltitude()
@@ -446,7 +430,6 @@ function AI_CAP_ZONE:onafterEngage( Controllable, From, Event, To )
    EngageRoute[#EngageRoute+1] = CurrentRoutePoint
     --- Find a random 2D point in PatrolZone.
    local ToTargetVec2 = self.PatrolZone:GetRandomVec2()
    self:T2( ToTargetVec2 )
--- a/Development/Moose/AI/AI_CAS.lua
+++ b/Development/Moose/AI/AI_CAS.lua
@@ -1,4 +1,4 @@
--- **AI** -- Perform Close Air Support (CAS) near friendlies.
+--- **AI** - Perform Close Air Support (CAS) near friendlies.
 --
 -- **Features:**
 -- 
@@ -28,16 +28,16 @@
 --
 -- ===
 --
-- @module AI.AI_Cas
+-- @module AI.AI_CAS
 -- @image AI_Close_Air_Support.JPG
 --- AI_CAS_ZONE class
 -- @type AI_CAS_ZONE
 -- @field Wrapper.Controllable#CONTROLLABLE AIControllable The @{Wrapper.Controllable} patrolling.
-- @field Core.Zone#ZONE_BASE TargetZone The @{Zone} where the patrol needs to be executed.
+-- @field Core.Zone#ZONE_BASE TargetZone The @{Core.Zone} where the patrol needs to be executed.
 -- @extends AI.AI_Patrol#AI_PATROL_ZONE
--- Implements the core functions to provide Close Air Support in an Engage @{Zone} by an AIR @{Wrapper.Controllable} or @{Wrapper.Group}.
+--- Implements the core functions to provide Close Air Support in an Engage @{Core.Zone} by an AIR @{Wrapper.Controllable} or @{Wrapper.Group}.
 -- The AI_CAS_ZONE runs a process. It holds an AI in a Patrol Zone and when the AI is commanded to engage, it will fly to an Engage Zone.
 -- 
 -- ![HoldAndEngage](..\Presentations\AI_CAS\Dia3.JPG)
@@ -130,7 +130,7 @@ AI_CAS_ZONE = {
 --- Creates a new AI_CAS_ZONE object
 -- @param #AI_CAS_ZONE self
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
 -- @param DCS#Altitude PatrolCeilingAltitude The highest altitude in meters where to execute the patrol.
 -- @param DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Controllable} in km/h.
@@ -459,7 +459,7 @@ function AI_CAS_ZONE:onafterEngage( Controllable, From, Event, To,
    --- Calculate the current route point.
    local CurrentVec2 = self.Controllable:GetVec2()
-    --TODO: Create GetAltitude function for GROUP, and delete GetUnit(1).
+    --DONE: Create GetAltitude function for GROUP, and delete GetUnit(1).
    local CurrentAltitude = self.Controllable:GetAltitude()
    local CurrentPointVec3 = POINT_VEC3:New( CurrentVec2.x, CurrentAltitude, CurrentVec2.y )
    local ToEngageZoneSpeed = self.PatrolMaxSpeed
@@ -496,7 +496,7 @@ function AI_CAS_ZONE:onafterEngage( Controllable, From, Event, To,
    AttackTasks[#AttackTasks+1] = Controllable:TaskFunction( "AI_CAS_ZONE.EngageRoute", self )
    EngageRoute[#EngageRoute].task = Controllable:TaskCombo( AttackTasks )
-    --- Define a random point in the @{Zone}. The AI will fly to that point within the zone.
+    --- Define a random point in the @{Core.Zone}. The AI will fly to that point within the zone.
      --- Find a random 2D point in EngageZone.
    local ToTargetVec2 = self.EngageZone:GetRandomVec2()
--- a/Development/Moose/AI/AI_Cargo_Dispatcher_Airplane.lua
+++ b/Development/Moose/AI/AI_Cargo_Dispatcher_Airplane.lua
@@ -1,4 +1,4 @@
--- **AI** -- (R2.4) - Models the intelligent transportation of infantry and other cargo using Planes.
+--- **AI** - Models the intelligent transportation of infantry and other cargo using Planes.
 --
 -- ## Features:
 --
--- a/Development/Moose/AI/AI_Cargo_Dispatcher_Helicopter.lua
+++ b/Development/Moose/AI/AI_Cargo_Dispatcher_Helicopter.lua
@@ -1,4 +1,4 @@
--- **AI** -- (2.4) - Models the intelligent transportation of infantry and other cargo using Helicopters.
+--- **AI** - Models the intelligent transportation of infantry and other cargo using Helicopters.
 --
 -- ## Features:
 -- 
@@ -174,8 +174,8 @@ function AI_CARGO_DISPATCHER_HELICOPTER:New( HelicopterSet, CargoSet, PickupZone
  self:SetPickupSpeed( 350, 150 )
  self:SetDeploySpeed( 350, 150 )
-  self:SetPickupRadius( 0, 0 )
+  self:SetPickupRadius( 40, 12 )
-  self:SetDeployRadius( 0, 0 )
+  self:SetDeployRadius( 40, 12 )
  self:SetPickupHeight( 500, 200 )
  self:SetDeployHeight( 500, 200 )
@@ -186,6 +186,9 @@ end
 function AI_CARGO_DISPATCHER_HELICOPTER:AICargo( Helicopter, CargoSet )
-  return AI_CARGO_HELICOPTER:New( Helicopter, CargoSet )
+  local dispatcher = AI_CARGO_HELICOPTER:New( Helicopter, CargoSet )
  dispatcher:SetLandingSpeedAndHeight(27, 6)
  return dispatcher
 end
--- a/Development/Moose/AI/AI_Cargo_Dispatcher_Ship.lua
+++ b/Development/Moose/AI/AI_Cargo_Dispatcher_Ship.lua
@@ -1,4 +1,4 @@
--- **AI** -- (2.5.1) - Models the intelligent transportation of infantry and other cargo using Ships
+--- **AI** - Models the intelligent transportation of infantry and other cargo using Ships.
 --
 -- ## Features:
 -- 
@@ -21,7 +21,7 @@
 -- ===
 --
 -- @module AI.AI_Cargo_Dispatcher_Ship
-- @image AI_Cargo_Dispatching_For_Ship.JPG
+-- @image AI_Cargo_Dispatcher.JPG
 --- @type AI_CARGO_DISPATCHER_SHIP
 -- @extends AI.AI_Cargo_Dispatcher#AI_CARGO_DISPATCHER
@@ -37,14 +37,14 @@
 --
 -- This will be particularly helpful in order to determine how to **Tailor the different cargo handling events**.
 --
-- The AI_CARGO_DISPATCHER_SHIP class uses the @{Cargo.Cargo} capabilities within the MOOSE framwork.
+-- The AI_CARGO_DISPATCHER_SHIP class uses the @{Cargo.Cargo} capabilities within the MOOSE framework.
 -- Also ensure that you fully understand how to declare and setup Cargo objects within the MOOSE framework before using this class.
 -- CARGO derived objects must generally be declared within the mission to make the AI_CARGO_DISPATCHER_SHIP object recognize the cargo.
 --
 --
 -- # 1) AI_CARGO_DISPATCHER_SHIP constructor.
 -- 
--   * @{AI_CARGO_DISPATCHER_SHIP.New}(): Creates a new AI_CARGO_DISPATCHER_SHIP object.
+--   * @{#AI_CARGO_DISPATCHER_SHIP.New}(): Creates a new AI_CARGO_DISPATCHER_SHIP object.
 --
 -- ---
 --
--- a/Development/Moose/AI/AI_Cargo_Ship.lua
+++ b/Development/Moose/AI/AI_Cargo_Ship.lua
@@ -1,4 +1,4 @@
--- **AI** -- (R2.5.1) - Models the intelligent transportation of infantry and other cargo.
+--- **AI** - Models the intelligent transportation of infantry and other cargo.
 --
 -- ===
 --
@@ -7,7 +7,7 @@
 -- ===
 --
 -- @module AI.AI_Cargo_Ship
-- @image AI_Cargo_Dispatching_For_Ship.JPG
+-- @image AI_Cargo_Dispatcher.JPG
 --- @type AI_CARGO_SHIP
 -- @extends AI.AI_Cargo#AI_CARGO
@@ -46,12 +46,12 @@
 --
 -- ## Cargo deployment.
 --
-- Using the @{AI_CARGO_SHIP.Deploy}() method, you are able to direct the Ship towards a Deploy zone to unboard/unload the cargo at the
+-- Using the @{#AI_CARGO_SHIP.Deploy}() method, you are able to direct the Ship towards a Deploy zone to unboard/unload the cargo at the
 -- specified coordinate. The Ship will follow the Shipping Lane to ensure consistent cargo transportation within the simulation environment.
 --
 -- ## Cargo pickup.
 --
-- Using the @{AI_CARGO_SHIP.Pickup}() method, you are able to direct the Ship towards a Pickup zone to board/load the cargo at the specified
+-- Using the @{#AI_CARGO_SHIP.Pickup}() method, you are able to direct the Ship towards a Pickup zone to board/load the cargo at the specified
 -- coordinate. The Ship will follow the Shipping Lane to ensure consistent cargo transportation within the simulation environment.
 --
 --
--- a/Development/Moose/AI/AI_Escort.lua
+++ b/Development/Moose/AI/AI_Escort.lua
@@ -1,4 +1,4 @@
--- **Functional** -- Taking the lead of AI escorting your flight or of other AI.
+--- **AI** - Taking the lead of AI escorting your flight or of other AI.
 -- 
 -- ===
 -- 
--- a/Development/Moose/AI/AI_Escort_Dispatcher_Request.lua
+++ b/Development/Moose/AI/AI_Escort_Dispatcher_Request.lua
@@ -11,7 +11,7 @@
 -- 
 -- ===       
 --
-- @module AI.AI_ESCORT_DISPATCHER_REQUEST
+-- @module AI.AI_Escort_Dispatcher_Request
 -- @image MOOSE.JPG
--- a/Development/Moose/AI/AI_Escort_Request.lua
+++ b/Development/Moose/AI/AI_Escort_Request.lua
@@ -1,4 +1,4 @@
--- **Functional** -- Taking the lead of AI escorting your flight or of other AI, upon request using the menu.
+--- **AI** - Taking the lead of AI escorting your flight or of other AI, upon request using the menu.
 -- 
 -- ===
 -- 
@@ -143,7 +143,7 @@
 -- 
 -- ===
 --
-- @module AI.AI_Escort
+-- @module AI.AI_Escort_Request
 -- @image Escorting.JPG
--- a/Development/Moose/AI/AI_Formation.lua
+++ b/Development/Moose/AI/AI_Formation.lua
@@ -1,4 +1,4 @@
--- **AI** -- Build large airborne formations of aircraft.
+--- **AI** - Build large airborne formations of aircraft.
 -- 
 -- **Features:**
 --
@@ -41,7 +41,7 @@
 --- Build large formations, make AI follow a @{Wrapper.Client#CLIENT} (player) leader or a @{Wrapper.Unit#UNIT} (AI) leader.
 --
-- AI_FORMATION makes AI @{GROUP}s fly in formation of various compositions.
+-- AI_FORMATION makes AI @{Wrapper.Group#GROUP}s fly in formation of various compositions.
 -- The AI_FORMATION class models formations in a different manner than the internal DCS formation logic!!!
 -- The purpose of the class is to:
 -- 
@@ -1140,7 +1140,7 @@ end
 -- @param DCS#Vec3 CV2 Vec3
 function AI_FORMATION:FollowMe(FollowGroup, ClientUnit, CT1, CV1, CT2, CV2)
-  if FollowGroup:GetState( FollowGroup, "Mode" ) == self.__Enum.Mode.Formation then
+  if FollowGroup:GetState( FollowGroup, "Mode" ) == self.__Enum.Mode.Formation and not self:Is("Stopped") then
    self:T({Mode=FollowGroup:GetState( FollowGroup, "Mode" )})
--- a/Development/Moose/AI/AI_Patrol.lua
+++ b/Development/Moose/AI/AI_Patrol.lua
@@ -1,4 +1,4 @@
--- **AI** -- Perform Air Patrolling for airplanes.
+--- **AI** - Perform Air Patrolling for airplanes.
 -- 
 -- **Features:**
 -- 
@@ -38,7 +38,7 @@
 --- AI_PATROL_ZONE class
 -- @type AI_PATROL_ZONE
 -- @field Wrapper.Controllable#CONTROLLABLE AIControllable The @{Wrapper.Controllable} patrolling.
-- @field Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @field Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @field DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
 -- @field DCS#Altitude PatrolCeilingAltitude The highest altitude in meters where to execute the patrol.
 -- @field DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Controllable} in km/h.
@@ -46,7 +46,7 @@
 -- @field Core.Spawn#SPAWN CoordTest
 -- @extends Core.Fsm#FSM_CONTROLLABLE
--- Implements the core functions to patrol a @{Zone} by an AI @{Wrapper.Controllable} or @{Wrapper.Group}.
+--- Implements the core functions to patrol a @{Core.Zone} by an AI @{Wrapper.Controllable} or @{Wrapper.Group}.
 -- 
 -- ![Process](..\Presentations\AI_PATROL\Dia3.JPG)
 -- 
@@ -135,15 +135,15 @@
 -- When the AI is out of fuel, it is required that a new AI is started, before the old AI can return to the home base.
 -- Therefore, with a parameter and a calculation of the distance to the home base, the fuel threshold is calculated.
 -- When the fuel threshold is reached, the AI will continue for a given time its patrol task in orbit, 
-- while a new AI is targetted to the AI_PATROL_ZONE.
+-- while a new AI is targeted to the AI_PATROL_ZONE.
 -- Once the time is finished, the old AI will return to the base.
-- Use the method @{#AI_PATROL_ZONE.ManageFuel}() to have this proces in place.
+-- Use the method @{#AI_PATROL_ZONE.ManageFuel}() to have this process in place.
 -- 
 -- ## 7. Manage "damage" behaviour of the AI in the AI_PATROL_ZONE
 -- 
 -- When the AI is damaged, it is required that a new AIControllable is started. However, damage cannon be foreseen early on. 
 -- Therefore, when the damage threshold is reached, the AI will return immediately to the home base (RTB).
-- Use the method @{#AI_PATROL_ZONE.ManageDamage}() to have this proces in place.
+-- Use the method @{#AI_PATROL_ZONE.ManageDamage}() to have this process in place.
 -- 
 -- ===
 -- 
@@ -154,7 +154,7 @@ AI_PATROL_ZONE = {
 --- Creates a new AI_PATROL_ZONE object
 -- @param #AI_PATROL_ZONE self
-- @param Core.Zone#ZONE_BASE PatrolZone The @{Zone} where the patrol needs to be executed.
+-- @param Core.Zone#ZONE_BASE PatrolZone The @{Core.Zone} where the patrol needs to be executed.
 -- @param DCS#Altitude PatrolFloorAltitude The lowest altitude in meters where to execute the patrol.
 -- @param DCS#Altitude PatrolCeilingAltitude The highest altitude in meters where to execute the patrol.
 -- @param DCS#Speed  PatrolMinSpeed The minimum speed of the @{Wrapper.Controllable} in km/h.
@@ -582,7 +582,7 @@ end
 --- When the AI is out of fuel, it is required that a new AI is started, before the old AI can return to the home base.
 -- Therefore, with a parameter and a calculation of the distance to the home base, the fuel threshold is calculated.
-- When the fuel threshold is reached, the AI will continue for a given time its patrol task in orbit, while a new AIControllable is targetted to the AI_PATROL_ZONE.
+-- When the fuel threshold is reached, the AI will continue for a given time its patrol task in orbit, while a new AIControllable is targeted to the AI_PATROL_ZONE.
 -- Once the time is finished, the old AI will return to the base.
 -- @param #AI_PATROL_ZONE self
 -- @param #number PatrolFuelThresholdPercentage The threshold in percentage (between 0 and 1) when the AIControllable is considered to get out of fuel.
@@ -613,13 +613,13 @@ function AI_PATROL_ZONE:ManageDamage( PatrolDamageThreshold )
  return self
 end
--- Defines a new patrol route using the @{Process_PatrolZone} parameters and settings.
+--- Defines a new patrol route using the @{#AI_PATROL_ZONE} parameters and settings.
 -- @param #AI_PATROL_ZONE self
 -- @return #AI_PATROL_ZONE self
 -- @param Wrapper.Controllable#CONTROLLABLE Controllable The Controllable Object managed by the FSM.
 -- @param #string From The From State string.
 -- @param #string Event The Event string.
 -- @param #string To The To State string.
 -- @return #AI_PATROL_ZONE self
 function AI_PATROL_ZONE:onafterStart( Controllable, From, Event, To )
  self:F2()
@@ -701,7 +701,7 @@ function AI_PATROL_ZONE:onafterDetect( Controllable, From, Event, To )
 end
 --- @param Wrapper.Controllable#CONTROLLABLE AIControllable
-- This statis method is called from the route path within the last task at the last waaypoint of the Controllable.
+-- This static method is called from the route path within the last task at the last waypoint of the Controllable.
 -- Note that this method is required, as triggers the next route when patrolling for the Controllable.
 function AI_PATROL_ZONE:_NewPatrolRoute( AIControllable )
@@ -710,7 +710,7 @@ function AI_PATROL_ZONE:_NewPatrolRoute( AIControllable )
 end
--- Defines a new patrol route using the @{Process_PatrolZone} parameters and settings.
+--- Defines a new patrol route using the @{#AI_PATROL_ZONE} parameters and settings.
 -- @param #AI_PATROL_ZONE self
 -- @param Wrapper.Controllable#CONTROLLABLE Controllable The Controllable Object managed by the FSM.
 -- @param #string From The From State string.
@@ -725,7 +725,6 @@ function AI_PATROL_ZONE:onafterRoute( Controllable, From, Event, To )
    return
  end
  local life = self.Controllable:GetLife() or 0
  if self.Controllable:IsAlive() and life > 1 then
    -- Determine if the AIControllable is within the PatrolZone. 
@@ -745,7 +744,7 @@ function AI_PATROL_ZONE:onafterRoute( Controllable, From, Event, To )
      self:T( "Not in the air, finding route path within PatrolZone" )
      local CurrentVec2 = self.Controllable:GetVec2()
      if not CurrentVec2 then return end
-      --DONE: Create GetAltitude function for GROUP, and delete GetUnit(1).
+      --Done: Create GetAltitude function for GROUP, and delete GetUnit(1).
      local CurrentAltitude = self.Controllable:GetAltitude()
      local CurrentPointVec3 = POINT_VEC3:New( CurrentVec2.x, CurrentAltitude, CurrentVec2.y )
      local ToPatrolZoneSpeed = self.PatrolMaxSpeed
@@ -776,7 +775,7 @@ function AI_PATROL_ZONE:onafterRoute( Controllable, From, Event, To )
    end    
-    --- Define a random point in the @{Zone}. The AI will fly to that point within the zone.
+    --- Define a random point in the @{Core.Zone}. The AI will fly to that point within the zone.
      --- Find a random 2D point in PatrolZone.
    local ToTargetVec2 = self.PatrolZone:GetRandomVec2()
--- a/Development/Moose/Actions/Act_Account.lua
+++ b/Development/Moose/Actions/Act_Account.lua
@@ -1,10 +1,10 @@
--- **Actions** - ACT_ACCOUNT_ classes **account for** (detect, count & report) various DCS events occuring on @{Wrapper.Unit}s.
+--- **Actions** - ACT_ACCOUNT_ classes **account for** (detect, count & report) various DCS events occurring on UNITs.
 --
 -- ![Banner Image](..\Presentations\ACT_ACCOUNT\Dia1.JPG)
 --
 -- ===
 --
-- @module Actions.Account
+-- @module Actions.Act_Account
 -- @image MOOSE.JPG
 do -- ACT_ACCOUNT
@@ -20,7 +20,7 @@ do -- ACT_ACCOUNT
  --
  -- ### ACT_ACCOUNT States
  --
-  --   * **Asigned**: The player is assigned.
+  --   * **Assigned**: The player is assigned.
  --   * **Waiting**: Waiting for an event.
  --   * **Report**: Reporting.
  --   * **Account**: Account for an event.
@@ -104,7 +104,6 @@ do -- ACT_ACCOUNT
    self:__Wait( 1 )
  end
    --- StateMachine callback function
    -- @param #ACT_ACCOUNT self
    -- @param Wrapper.Unit#UNIT ProcessUnit
@@ -141,7 +140,7 @@ do -- ACT_ACCOUNT_DEADS
  --- # @{#ACT_ACCOUNT_DEADS} FSM class, extends @{Core.Fsm.Account#ACT_ACCOUNT}
  --
  -- The ACT_ACCOUNT_DEADS class accounts (detects, counts and reports) successful kills of DCS units.
-  -- The process is given a @{Set} of units that will be tracked upon successful destruction.
+  -- The process is given a @{Core.Set} of units that will be tracked upon successful destruction.
  -- The process will end after each target has been successfully destroyed.
  -- Each successful dead will trigger an Account state transition that can be scored, modified or administered.
  --
@@ -157,7 +156,6 @@ do -- ACT_ACCOUNT_DEADS
    ClassName = "ACT_ACCOUNT_DEADS",
  }
  --- Creates a new DESTROY process.
  -- @param #ACT_ACCOUNT_DEADS self
  -- @param Core.Set#SET_UNIT TargetSetUnit
@@ -195,7 +193,6 @@ do -- ACT_ACCOUNT_DEADS
    self:GetCommandCenter():MessageTypeToGroup( MessageText, ProcessUnit:GetGroup(), MESSAGE.Type.Information )
  end
  --- StateMachine callback function
  -- @param #ACT_ACCOUNT_DEADS self
  -- @param Wrapper.Unit#UNIT ProcessUnit
@@ -270,7 +267,6 @@ do -- ACT_ACCOUNT_DEADS
    end
  end
  --- DCS Events
  --- @param #ACT_ACCOUNT_DEADS self
--- a/Development/Moose/Actions/Act_Assign.lua
+++ b/Development/Moose/Actions/Act_Assign.lua
@@ -77,7 +77,7 @@
 --
 -- ===
 --
-- @module Actions.Assign
+-- @module Actions.Act_Assign
 -- @image MOOSE.JPG
--- a/Development/Moose/Actions/Act_Assist.lua
+++ b/Development/Moose/Actions/Act_Assist.lua
@@ -50,7 +50,7 @@
 --
 -- # 1) @{#ACT_ASSIST_SMOKE_TARGETS_ZONE} class, extends @{Core.Fsm.Route#ACT_ASSIST}
 --
-- The ACT_ASSIST_SMOKE_TARGETS_ZONE class implements the core functions to smoke targets in a @{Zone}.
+-- The ACT_ASSIST_SMOKE_TARGETS_ZONE class implements the core functions to smoke targets in a @{Core.Zone}.
 -- The targets are smoked within a certain range around each target, simulating a realistic smoking behaviour.
 -- At random intervals, a new target is smoked.
 --
@@ -60,7 +60,7 @@
 --
 -- ===
 --
-- @module Actions.Assist
+-- @module Actions.Act_Assist
 -- @image MOOSE.JPG
--- a/Development/Moose/Actions/Act_Route.lua
+++ b/Development/Moose/Actions/Act_Route.lua
@@ -62,7 +62,7 @@
 --
 -- # 1) @{#ACT_ROUTE_ZONE} class, extends @{Core.Fsm.Route#ACT_ROUTE}
 --
-- The ACT_ROUTE_ZONE class implements the core functions to route an AIR @{Wrapper.Controllable} player @{Wrapper.Unit} to a @{Zone}.
+-- The ACT_ROUTE_ZONE class implements the core functions to route an AIR @{Wrapper.Controllable} player @{Wrapper.Unit} to a @{Core.Zone}.
 -- The player receives on perioding times messages with the coordinates of the route to follow.
 -- Upon arrival at the zone, a confirmation of arrival is sent, and the process will be ended.
 --
@@ -72,7 +72,7 @@
 --
 -- ===
 --
-- @module Actions.Route
+-- @module Actions.Act_Route
 -- @image MOOSE.JPG
--- a/Development/Moose/Cargo/Cargo.lua
+++ b/Development/Moose/Cargo/Cargo.lua
@@ -66,7 +66,7 @@
 -- you can board the cargo into the carrier `CargoCarrier`.
 -- Simple, isn't it? Told you, and this is only the beginning.
 -- 
-- The boarding, unboarding, loading, unloading of cargo is however something that is not meant to be coded manualy by mission designers.
+-- The boarding, unboarding, loading, unloading of cargo is however something that is not meant to be coded manually by mission designers.
 -- It would be too low-level and not end-user friendly to deal with cargo handling complexity.
 -- Things can become really complex if you want to make cargo being handled and behave in multiple scenarios.
 -- 
@@ -77,8 +77,8 @@
 -- 
 -- ## 3.1) AI Cargo handlers.
 -- 
--   - @{AI.AI_Cargo_APC} will create for you the capatility to make an APC group handle cargo.
+--   - @{AI.AI_Cargo_APC} will create for you the capability to make an APC group handle cargo.
--   - @{AI.AI_Cargo_Helicopter} will create for you the capatility to make a Helicopter group handle cargo.
+--   - @{AI.AI_Cargo_Helicopter} will create for you the capability to make a Helicopter group handle cargo.
 --   
 --   
 -- ## 3.2) AI Cargo transportation dispatchers.
@@ -86,7 +86,7 @@
 -- There are also dispatchers that make AI work together to transport cargo automatically!!!
 --   
 --   - @{AI.AI_Cargo_Dispatcher_APC} derived classes will create for your dynamic cargo handlers controlled by AI ground vehicle groups (APCs) to transport cargo between sites.
--   - @{AI.AI_Cargo_Dispatcher_Helicopters} derived classes will create for your dynamic cargo handlers controlled by AI helicpter groups to transport cargo between sites.
+--   - @{AI.AI_Cargo_Dispatcher_Helicopters} derived classes will create for your dynamic cargo handlers controlled by AI helicopter groups to transport cargo between sites.
 -- 
 -- ## 3.3) Cargo transportation tasking.
 --   
@@ -94,7 +94,7 @@
 --   
 --   - @{Tasking.Task_CARGO} derived classes will create for you cargo transportation tasks, that allow human players to interact with MOOSE cargo objects to complete tasks.
 -- 
-- Please refer to the documentation reflected within these modules to understand the detailed capabilties.
+-- Please refer to the documentation reflected within these modules to understand the detailed capabilities.
 -- 
 -- # 4) Cargo SETs.
 -- 
@@ -206,27 +206,29 @@
 --    * **NR=** Provide the maximum range in meters when the cargo units will be boarded within the carrier during boarding.
 --      Note that this option is optional, so can be omitted. The default value of the RR is 10 meters.
 -- 
-- ## 5.2) The \#CARGO tag to create CARGO_CRATE objects:
+-- ## 5.2) The \#CARGO tag to create CARGO_CRATE or CARGO_SLINGLOAD objects:
 -- 
 -- You can also use the \#CARGO tag on **static** objects, including **static cargo** objects of the mission editor.
 -- 
 -- For example, the following #CARGO naming in the **static name** of the object, will create a CARGO_CRATE object when the mission starts.
 -- 
--   `Static #CARGO(T=Workmaterials,RR=500,NR=25)`
+--   `Static #CARGO(T=Workmaterials,C=CRATE,RR=500,NR=25)`
 -- 
 -- This will create a CARGO_CRATE object:
 -- 
 --    * with the group name `Static #CARGO`
 --    * is of type `Workmaterials`
 --    * is of category `CRATE` (as opposed to `SLING`)
 --    * will report when a carrier is within 500 meters
 --    * will board to carriers when the carrier is within 500 meters from the cargo object
 --    * will disappear when the cargo is within 25 meters from the carrier during boarding
 -- 
 -- So the overall syntax of the #CARGO naming tag and arguments are:
 -- 
--   `StaticName #CARGO(T=CargoTypeName,RR=Range,NR=Range)`
+--   `StaticName #CARGO(T=CargoTypeName,C=Category,RR=Range,NR=Range)`
 -- 
 --    * **T=** Provide a text that contains the type name of the cargo object. This type name can be used to filter cargo within a SET_CARGO object.
 --    * **C=** Provide either `CRATE` or `SLING` to have this static created as a CARGO_CRATE or CARGO_SLINGLOAD respectively.
 --    * **RR=** Provide the minimal range in meters when the report to the carrier, and board to the carrier.
 --      Note that this option is optional, so can be omitted. The default value of the RR is 250 meters.
 --    * **NR=** Provide the maximum range in meters when the cargo units will be boarded within the carrier during boarding.
@@ -429,7 +431,6 @@ do -- CARGO
  --- @type CARGO.CargoObjects
  -- @map < #string, Wrapper.Positionable#POSITIONABLE > The alive POSITIONABLE objects representing the the cargo.
  --- CARGO Constructor. This class is an abstract class and should not be instantiated.
  -- @param #CARGO self
  -- @param #string Type
@@ -479,11 +480,9 @@ do -- CARGO
    CARGOS[self.Name] = self
    return self
  end
  --- Find a CARGO in the _DATABASE.
  -- @param #CARGO self
  -- @param #string CargoName The Cargo Name.
@@ -527,7 +526,6 @@ do -- CARGO
    end
  end
  --- Check if the cargo can be Slingloaded.
  -- @param #CARGO self
  function CARGO:CanSlingload()
@@ -558,7 +556,6 @@ do -- CARGO
    return true
  end
  --- Destroy the cargo.
  -- @param #CARGO self
  function CARGO:Destroy()
@@ -611,7 +608,6 @@ do -- CARGO
    return self.Type
  end
  --- Get the transportation method of the Cargo.
  -- @param #CARGO self
  -- @return #string The transportation method of the Cargo.
@@ -619,7 +615,6 @@ do -- CARGO
    return self.TransportationMethod
  end
  --- Get the coalition of the Cargo.
  -- @param #CARGO self
  -- @return Coalition
@@ -631,7 +626,6 @@ do -- CARGO
    end
  end
  --- Get the current coordinates of the Cargo.
  -- @param #CARGO self
  -- @return Core.Point#COORDINATE The coordinates of the Cargo.
@@ -646,7 +640,6 @@ do -- CARGO
    return self:Is( "Destroyed" )
  end
  --- Check if cargo is loaded.
  -- @param #CARGO self
  -- @return #boolean true if loaded
@@ -676,7 +669,6 @@ do -- CARGO
    return self:Is( "Boarding" )
  end
  --- Check if cargo is unboarding.
  -- @param #CARGO self
  -- @return #boolean true if unboarding
@@ -684,7 +676,6 @@ do -- CARGO
    return self:Is( "UnBoarding" )
  end
  --- Check if cargo is alive.
  -- @param #CARGO self
  -- @return #boolean true if unloaded
@@ -711,9 +702,6 @@ do -- CARGO
    return self.Deployed
  end
  --- Template method to spawn a new representation of the CARGO in the simulator.
  -- @param #CARGO self
  -- @return #CARGO
@@ -799,7 +787,6 @@ do -- CARGO
    self:Smoke( trigger.smokeColor.Blue, Range )
  end
  --- Set the Load radius, which is the radius till when the Cargo can be loaded.
  -- @param #CARGO self
  -- @param #number LoadRadius The radius till Cargo can be loaded.
@@ -815,8 +802,6 @@ do -- CARGO
    return self.LoadRadius
  end
  --- Check if Cargo is in the LoadRadius for the Cargo to be Boarded or Loaded.
  -- @param #CARGO self
  -- @param Core.Point#COORDINATE Coordinate
@@ -837,7 +822,6 @@ do -- CARGO
    return false
  end
  --- Check if the Cargo can report itself to be Boarded or Loaded.
  -- @param #CARGO self
  -- @param Core.Point#COORDINATE Coordinate
@@ -884,9 +868,7 @@ do -- CARGO
    return false
  end
-  
+  --- Check if Cargo is the given @{Core.Zone}.
  --- Check if Cargo is the given @{Zone}.
  -- @param #CARGO self
  -- @param Core.Zone#ZONE_BASE Zone
  -- @return #boolean **true** if cargo is in the Zone, **false** if cargo is not in the Zone.
@@ -908,7 +890,6 @@ do -- CARGO
  end
  --- Get the current PointVec2 of the cargo.
  -- @param #CARGO self
  -- @return Core.Point#POINT_VEC2
@@ -992,7 +973,6 @@ do -- CARGO
    end
  end
  --- Report to a Carrier Group with a Flaring signal.
  -- @param #CARGO self
  -- @param Utils#UTILS.FlareColor FlareColor the color of the flare.
@@ -1002,7 +982,6 @@ do -- CARGO
    self.ReportFlareColor = FlareColor 
  end
  --- Report to a Carrier Group with a Smoking signal.
  -- @param #CARGO self
  -- @param Utils#UTILS.SmokeColor SmokeColor the color of the smoke.
@@ -1012,7 +991,6 @@ do -- CARGO
    self.ReportSmokeColor = SmokeColor 
  end
  --- Reset the reporting for a Carrier Group.
  -- @param #CARGO self
  -- @param #string Action The string describing the action for the cargo.
@@ -1047,9 +1025,6 @@ do -- CARGO
  end
 end -- CARGO
 do -- CARGO_REPRESENTABLE
@@ -1158,7 +1133,6 @@ do -- CARGO_REPRESENTABLE
  end
 end -- CARGO_REPRESENTABLE
 do -- CARGO_REPORTABLE
@@ -1195,16 +1169,8 @@ do -- CARGO_REPORTABLE
  end
 end
 do -- CARGO_PACKAGE
  --- @type CARGO_PACKAGE
@@ -1425,5 +1391,4 @@ function CARGO_PACKAGE:onafterUnLoad( From, Event, To, CargoCarrier, Speed, Dist
 end
 end
--- a/Development/Moose/Cargo/CargoCrate.lua
+++ b/Development/Moose/Cargo/CargoCrate.lua
@@ -1,4 +1,4 @@
--- **Cargo** -- Management of single cargo crates, which are based on a @{Static} object.
+--- **Cargo** - Management of single cargo crates, which are based on a STATIC object.
 --
 -- ===
 -- 
--- a/Development/Moose/Cargo/CargoGroup.lua
+++ b/Development/Moose/Cargo/CargoGroup.lua
@@ -1,4 +1,4 @@
--- **Cargo** - Management of grouped cargo logistics, which are based on a @{Wrapper.Group} object.
+--- **Cargo** - Management of grouped cargo logistics, which are based on a GROUP object.
 --
 -- ===
 -- 
@@ -47,7 +47,7 @@ do -- CARGO_GROUP
  --- CARGO_GROUP constructor.
  -- This make a new CARGO_GROUP from a @{Wrapper.Group} object.
-  -- It will "ungroup" the group object within the sim, and will create a @{Set} of individual Unit objects.
+  -- It will "ungroup" the group object within the sim, and will create a @{Core.Set} of individual Unit objects.
  -- @param #CARGO_GROUP self
  -- @param Wrapper.Group#GROUP CargoGroup Group to be transported as cargo.
  -- @param #string Type Cargo type, e.g. "Infantry". This is the type used in SET_CARGO:New():FilterTypes("Infantry") to define the valid cargo groups of the set.
@@ -727,7 +727,7 @@ do -- CARGO_GROUP
    end
  end
-  --- Check if the first element of the CargoGroup is the given @{Zone}.
+  --- Check if the first element of the CargoGroup is the given @{Core.Zone}.
  -- @param #CARGO_GROUP self
  -- @param Core.Zone#ZONE_BASE Zone
  -- @return #boolean **true** if the first element of the CargoGroup is in the Zone
--- a/Development/Moose/Cargo/CargoSlingload.lua
+++ b/Development/Moose/Cargo/CargoSlingload.lua
@@ -1,4 +1,4 @@
--- **Cargo** -- Management of single cargo crates, which are based on a @{Static} object. The cargo can only be slingloaded.
+--- **Cargo** - Management of single cargo crates, which are based on a STATIC object. The cargo can only be slingloaded.
 --
 -- ===
 -- 
--- a/Development/Moose/Cargo/CargoUnit.lua
+++ b/Development/Moose/Cargo/CargoUnit.lua
@@ -1,4 +1,4 @@
--- **Cargo** - Management of single cargo logistics, which are based on a @{Wrapper.Unit} object.
+--- **Cargo** - Management of single cargo logistics, which are based on a UNIT object.
 --
 -- ===
 -- 
--- a/Development/Moose/Core/Astar.lua
+++ b/Development/Moose/Core/Astar.lua
@@ -0,0 +1,943 @@
 --- **Core** - A* Pathfinding.
 --
 -- **Main Features:**
 --
 --    * Find path from A to B.
 --    * Pre-defined as well as custom valid neighbour functions.
 --    * Pre-defined as well as custom cost functions.
 --    * Easy rectangular grid setup.
 --
 -- ===
 --
 -- ### Author: **funkyfranky**
 -- 
 -- ===
 -- @module Core.Astar
 -- @image CORE_Astar.png
 --- ASTAR class.
 -- @type ASTAR
 -- @field #string ClassName Name of the class.
 -- @field #boolean Debug Debug mode. Messages to all about status.
 -- @field #string lid Class id string for output to DCS log file.
 -- @field #table nodes Table of nodes.
 -- @field #number counter Node counter.
 -- @field #number Nnodes Number of nodes.
 -- @field #number nvalid Number of nvalid calls.
 -- @field #number nvalidcache Number of cached valid evals.
 -- @field #number ncost Number of cost evaluations.
 -- @field #number ncostcache Number of cached cost evals.
 -- @field #ASTAR.Node startNode Start node.
 -- @field #ASTAR.Node endNode End node.
 -- @field Core.Point#COORDINATE startCoord Start coordinate.
 -- @field Core.Point#COORDINATE endCoord End coordinate.
 -- @field #function ValidNeighbourFunc Function to check if a node is valid.
 -- @field #table ValidNeighbourArg Optional arguments passed to the valid neighbour function.
 -- @field #function CostFunc Function to calculate the heuristic "cost" to go from one node to another.
 -- @field #table CostArg Optional arguments passed to the cost function. 
 -- @extends Core.Base#BASE
 --- *When nothing goes right... Go left!*
 --
 -- ===
 --
 -- # The ASTAR Concept
 -- 
 -- Pathfinding algorithm.
 -- 
 -- 
 -- # Start and Goal
 -- 
 -- The first thing we need to define is obviously the place where we want to start and where we want to go eventually.
 -- 
 -- ## Start
 -- 
 -- The start
 -- 
 -- ## Goal 
 -- 
 -- 
 -- # Nodes
 -- 
 -- ## Rectangular Grid
 -- 
 -- A rectangular grid can be created using the @{#ASTAR.CreateGrid}(*ValidSurfaceTypes, BoxHY, SpaceX, deltaX, deltaY, MarkGrid*), where
 -- 
 -- * *ValidSurfaceTypes* is a table of valid surface types. By default all surface types are valid.
 -- * *BoxXY* is the width of the grid perpendicular the the line between start and end node. Default is 40,000 meters (40 km).
 -- * *SpaceX* is the additional space behind the start and end nodes. Default is 20,000 meters (20 km).
 -- * *deltaX* is the grid spacing between nodes in the direction of start and end node. Default is 2,000 meters (2 km).
 -- * *deltaY* is the grid spacing perpendicular to the direction of start and end node. Default is the same as *deltaX*.
 -- * *MarkGrid* If set to *true*, this places marker on the F10 map on each grid node. Note that this can stall DCS if too many nodes are created. 
 -- 
 -- ## Valid Surfaces
 -- 
 -- Certain unit types can only travel on certain surfaces types, for example
 -- 
 -- * Naval units can only travel on water (that also excludes shallow water in DCS currently),
 -- * Ground units can only traval on land.
 -- 
 -- By restricting the surface type in the grid construction, we also reduce the number of nodes, which makes the algorithm more efficient.
 -- 
 -- ## Box Width (BoxHY)
 -- 
 -- The box width needs to be large enough to capture all paths you want to consider.
 -- 
 -- ## Space in X
 -- 
 -- The space in X value is important if the algorithm needs to to backwards from the start node or needs to extend even further than the end node.
 -- 
 -- ## Grid Spacing
 -- 
 -- The grid spacing is an important factor as it determines the number of nodes and hence the performance of the algorithm. It should be as large as possible.
 -- However, if the value is too large, the algorithm might fail to get a valid path.
 -- 
 -- A good estimate of the grid spacing is to set it to be smaller (~ half the size) of the smallest gap you need to path.
 -- 
 -- # Valid Neighbours
 -- 
 -- The A* algorithm needs to know if a transition from one node to another is allowed or not. By default, hopping from one node to another is always possible.
 -- 
 -- ## Line of Sight
 -- 
 -- For naval
 --  
 -- 
 -- # Heuristic Cost
 -- 
 -- In order to determine the optimal path, the pathfinding algorithm needs to know, how costly it is to go from one node to another.
 -- Often, this can simply be determined by the distance between two nodes. Therefore, the default cost function is set to be the 2D distance between two nodes.
 -- 
 -- 
 -- # Calculate the Path
 -- 
 -- Finally, we have to calculate the path. This is done by the @{ASTAR.GetPath}(*ExcludeStart, ExcludeEnd*) function. This function returns a table of nodes, which
 -- describe the optimal path from the start node to the end node.
 -- 
 -- By default, the start and end node are include in the table that is returned.
 -- 
 -- Note that a valid path must not always exist. So you should check if the function returns *nil*.
 -- 
 -- Common reasons that a path cannot be found are:
 -- 
 -- * The grid is too small ==> increase grid size, e.g. *BoxHY* and/or *SpaceX* if you use a rectangular grid.  
 -- * The grid spacing is too large ==> decrease *deltaX* and/or *deltaY*
 -- * There simply is no valid path ==> you are screwed :(
 -- 
 -- 
 -- # Examples
 -- 
 -- ## Strait of Hormuz
 -- 
 -- Carrier Group finds its way through the Stait of Hormuz.
 -- 
 -- ## 
 -- 
 --
 --
 -- @field #ASTAR
 ASTAR = {
  ClassName      = "ASTAR",
  Debug          =   nil,
  lid            =   nil,
  nodes          =    {},
  counter        =     1,
  Nnodes         =     0,
  ncost          =     0,
  ncostcache     =     0,
  nvalid         =     0,
  nvalidcache    =     0,
 }
 --- Node data.
 -- @type ASTAR.Node
 -- @field #number id Node id.
 -- @field Core.Point#COORDINATE coordinate Coordinate of the node.
 -- @field #number surfacetype Surface type.
 -- @field #table valid Cached valid/invalid nodes.
 -- @field #table cost Cached cost.
 --- ASTAR infinity.
 -- @field #number INF
 ASTAR.INF=1/0
 --- ASTAR class version.
 -- @field #string version
 ASTAR.version="0.4.0"
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- TODO list
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- TODO: Add more valid neighbour functions.
 -- TODO: Write docs.
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- Constructor
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 --- Create a new ASTAR object.
 -- @param #ASTAR self
 -- @return #ASTAR self
 function ASTAR:New()
  -- Inherit everything from INTEL class.
  local self=BASE:Inherit(self, BASE:New()) --#ASTAR
  self.lid="ASTAR | "
  return self
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- User functions
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 --- Set coordinate from where to start.
 -- @param #ASTAR self
 -- @param Core.Point#COORDINATE Coordinate Start coordinate.
 -- @return #ASTAR self
 function ASTAR:SetStartCoordinate(Coordinate)
  self.startCoord=Coordinate
  return self
 end
 --- Set coordinate where you want to go.
 -- @param #ASTAR self
 -- @param Core.Point#COORDINATE Coordinate end coordinate.
 -- @return #ASTAR self
 function ASTAR:SetEndCoordinate(Coordinate)
  self.endCoord=Coordinate
  return self
 end
 --- Create a node from a given coordinate.
 -- @param #ASTAR self
 -- @param Core.Point#COORDINATE Coordinate The coordinate where to create the node.
 -- @return #ASTAR.Node The node.
 function ASTAR:GetNodeFromCoordinate(Coordinate)
  local node={} --#ASTAR.Node
  node.coordinate=Coordinate
  node.surfacetype=Coordinate:GetSurfaceType()
  node.id=self.counter
  node.valid={}
  node.cost={}
  self.counter=self.counter+1
  return node
 end
 --- Add a node to the table of grid nodes.
 -- @param #ASTAR self
 -- @param #ASTAR.Node Node The node to be added.
 -- @return #ASTAR self
 function ASTAR:AddNode(Node)
  self.nodes[Node.id]=Node
  self.Nnodes=self.Nnodes+1 
  return self
 end
 --- Add a node to the table of grid nodes specifying its coordinate.
 -- @param #ASTAR self
 -- @param Core.Point#COORDINATE Coordinate The coordinate where the node is created.
 -- @return #ASTAR.Node The node.
 function ASTAR:AddNodeFromCoordinate(Coordinate)
  local node=self:GetNodeFromCoordinate(Coordinate)
  self:AddNode(node)
  return node
 end
 --- Check if the coordinate of a node has is at a valid surface type.
 -- @param #ASTAR self
 -- @param #ASTAR.Node Node The node to be added.
 -- @param #table SurfaceTypes Surface types, for example `{land.SurfaceType.WATER}`. By default all surface types are valid.
 -- @return #boolean If true, surface type of node is valid.
 function ASTAR:CheckValidSurfaceType(Node, SurfaceTypes)
  if SurfaceTypes then
    if type(SurfaceTypes)~="table" then
      SurfaceTypes={SurfaceTypes}
    end
    for _,surface in pairs(SurfaceTypes) do
      if surface==Node.surfacetype then
        return true
      end
    end
    return false
  else
    return true
  end
 end
 --- Add a function to determine if a neighbour of a node is valid.
 -- @param #ASTAR self
 -- @param #function NeighbourFunction Function that needs to return *true* for a neighbour to be valid.
 -- @param ... Condition function arguments if any.
 -- @return #ASTAR self
 function ASTAR:SetValidNeighbourFunction(NeighbourFunction, ...)
  self.ValidNeighbourFunc=NeighbourFunction
  self.ValidNeighbourArg={}
  if arg then
    self.ValidNeighbourArg=arg
  end
  return self
 end
 --- Set valid neighbours to require line of sight between two nodes.
 -- @param #ASTAR self
 -- @param #number CorridorWidth Width of LoS corridor in meters.
 -- @return #ASTAR self
 function ASTAR:SetValidNeighbourLoS(CorridorWidth)
  self:SetValidNeighbourFunction(ASTAR.LoS, CorridorWidth)
  return self
 end
 --- Set valid neighbours to be in a certain distance.
 -- @param #ASTAR self
 -- @param #number MaxDistance Max distance between nodes in meters. Default is 2000 m.
 -- @return #ASTAR self
 function ASTAR:SetValidNeighbourDistance(MaxDistance)
  self:SetValidNeighbourFunction(ASTAR.DistMax, MaxDistance)
  return self
 end
 --- Set valid neighbours to be in a certain distance.
 -- @param #ASTAR self
 -- @param #number MaxDistance Max distance between nodes in meters. Default is 2000 m.
 -- @return #ASTAR self
 function ASTAR:SetValidNeighbourRoad(MaxDistance)
  self:SetValidNeighbourFunction(ASTAR.Road, MaxDistance)
  return self
 end
 --- Set the function which calculates the "cost" to go from one to another node.
 -- The first to arguments of this function are always the two nodes under consideration. But you can add optional arguments.
 -- Very often the distance between nodes is a good measure for the cost.
 -- @param #ASTAR self
 -- @param #function CostFunction Function that returns the "cost".
 -- @param ... Condition function arguments if any.
 -- @return #ASTAR self
 function ASTAR:SetCostFunction(CostFunction, ...)
  self.CostFunc=CostFunction
  self.CostArg={}
  if arg then
    self.CostArg=arg
  end
  return self
 end
 --- Set heuristic cost to go from one node to another to be their 2D distance.
 -- @param #ASTAR self
 -- @return #ASTAR self
 function ASTAR:SetCostDist2D()
  self:SetCostFunction(ASTAR.Dist2D)
  return self
 end
 --- Set heuristic cost to go from one node to another to be their 3D distance.
 -- @param #ASTAR self
 -- @return #ASTAR self
 function ASTAR:SetCostDist3D()
  self:SetCostFunction(ASTAR.Dist3D)
  return self
 end
 --- Set heuristic cost to go from one node to another to be their 3D distance.
 -- @param #ASTAR self
 -- @return #ASTAR self
 function ASTAR:SetCostRoad()
  self:SetCostFunction(ASTAR)
  return self
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- Grid functions
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 --- Create a rectangular grid of nodes between star and end coordinate.
 -- The coordinate system is oriented along the line between start and end point.
 -- @param #ASTAR self
 -- @param #table ValidSurfaceTypes Valid surface types. By default is all surfaces are allowed.
 -- @param #number BoxHY Box "height" in meters along the y-coordinate. Default 40000 meters (40 km).
 -- @param #number SpaceX Additional space in meters before start and after end coordinate. Default 10000 meters (10 km).
 -- @param #number deltaX Increment in the direction of start to end coordinate in meters. Default 2000 meters.
 -- @param #number deltaY Increment perpendicular to the direction of start to end coordinate in meters. Default is same as deltaX.
 -- @param #boolean MarkGrid If true, create F10 map markers at grid nodes.
 -- @return #ASTAR self
 function ASTAR:CreateGrid(ValidSurfaceTypes, BoxHY, SpaceX, deltaX, deltaY, MarkGrid)
  -- Note that internally
  -- x coordinate is z: x-->z  Line from start to end
  -- y coordinate is x: y-->x  Perpendicular
  -- Grid length and width.
  local Dz=SpaceX or 10000
  local Dx=BoxHY and BoxHY/2 or 20000
  -- Increments.
  local dz=deltaX or 2000  
  local dx=deltaY or dz
  -- Heading from start to end coordinate.
  local angle=self.startCoord:HeadingTo(self.endCoord)
  --Distance between start and end.
  local dist=self.startCoord:Get2DDistance(self.endCoord)+2*Dz
  -- Origin of map. Needed to translate back to wanted position.
  local co=COORDINATE:New(0, 0, 0)
  local do1=co:Get2DDistance(self.startCoord)
  local ho1=co:HeadingTo(self.startCoord)
  -- Start of grid.
  local xmin=-Dx
  local zmin=-Dz
  -- Number of grid points.
  local nz=dist/dz+1
  local nx=2*Dx/dx+1
  -- Debug info.
  local text=string.format("Building grid with nx=%d ny=%d => total=%d nodes", nx, nz, nx*nz)
  self:T(self.lid..text)
  -- Loop over x and z coordinate to create a 2D grid.
  for i=1,nx do
    -- x coordinate perpendicular to z.
    local x=xmin+dx*(i-1)
    for j=1,nz do
      -- z coordinate connecting start and end.
      local z=zmin+dz*(j-1)
      -- Rotate 2D.
      local vec3=UTILS.Rotate2D({x=x, y=0, z=z}, angle)
      -- Coordinate of the node.
      local c=COORDINATE:New(vec3.z, vec3.y, vec3.x):Translate(do1, ho1, true)
      -- Create a node at this coordinate.
      local node=self:GetNodeFromCoordinate(c)
      -- Check if node has valid surface type.
      if self:CheckValidSurfaceType(node, ValidSurfaceTypes) then
        if MarkGrid then
          c:MarkToAll(string.format("i=%d, j=%d surface=%d", i, j, node.surfacetype))
        end
        -- Add node to grid.
        self:AddNode(node)
      end
    end
  end
  -- Debug info.
  local text=string.format("Done building grid!")
  self:T2(self.lid..text)
  return self
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- Valid neighbour functions
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 --- Function to check if two nodes have line of sight (LoS).
 -- @param #ASTAR.Node nodeA First node.
 -- @param #ASTAR.Node nodeB Other node.
 -- @param #number corridor (Optional) Width of corridor in meters.
 -- @return #boolean If true, two nodes have LoS.
 function ASTAR.LoS(nodeA, nodeB, corridor)
  local offset=1
  local dx=corridor and corridor/2 or nil
  local dy=dx
  local cA=nodeA.coordinate:GetVec3()
  local cB=nodeB.coordinate:GetVec3()
  cA.y=offset
  cB.y=offset
  local los=land.isVisible(cA, cB)
  if los and corridor then
    -- Heading from A to B.
    local heading=nodeA.coordinate:HeadingTo(nodeB.coordinate)
    local Ap=UTILS.VecTranslate(cA, dx, heading+90)
    local Bp=UTILS.VecTranslate(cB, dx, heading+90)
    los=land.isVisible(Ap, Bp)
    if los then
      local Am=UTILS.VecTranslate(cA, dx, heading-90)
      local Bm=UTILS.VecTranslate(cB, dx, heading-90)
      los=land.isVisible(Am, Bm)
    end
  end
  return los
 end
 --- Function to check if two nodes have a road connection.
 -- @param #ASTAR.Node nodeA First node.
 -- @param #ASTAR.Node nodeB Other node.
 -- @return #boolean If true, two nodes are connected via a road.
 function ASTAR.Road(nodeA, nodeB)
  local path=land.findPathOnRoads("roads", nodeA.coordinate.x, nodeA.coordinate.z, nodeB.coordinate.x, nodeB.coordinate.z)
  if path then
    return true    
  else
    return false
  end
 end
 --- Function to check if distance between two nodes is less than a threshold distance.
 -- @param #ASTAR.Node nodeA First node.
 -- @param #ASTAR.Node nodeB Other node.
 -- @param #number distmax Max distance in meters. Default is 2000 m.
 -- @return #boolean If true, distance between the two nodes is below threshold.
 function ASTAR.DistMax(nodeA, nodeB, distmax)
  distmax=distmax or 2000
  local dist=nodeA.coordinate:Get2DDistance(nodeB.coordinate)
  return dist<=distmax
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- Heuristic cost functions
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 --- Heuristic cost is given by the 2D distance between the nodes. 
 -- @param #ASTAR.Node nodeA First node.
 -- @param #ASTAR.Node nodeB Other node.
 -- @return #number Distance between the two nodes.
 function ASTAR.Dist2D(nodeA, nodeB)
  local dist=nodeA.coordinate:Get2DDistance(nodeB)
  return dist
 end
 --- Heuristic cost is given by the 3D distance between the nodes. 
 -- @param #ASTAR.Node nodeA First node.
 -- @param #ASTAR.Node nodeB Other node.
 -- @return #number Distance between the two nodes.
 function ASTAR.Dist3D(nodeA, nodeB)
  local dist=nodeA.coordinate:Get3DDistance(nodeB.coordinate)
  return dist
 end
 --- Heuristic cost is given by the distance between the nodes on road. 
 -- @param #ASTAR.Node nodeA First node.
 -- @param #ASTAR.Node nodeB Other node.
 -- @return #number Distance between the two nodes.
 function ASTAR.DistRoad(nodeA, nodeB)
  -- Get the path.
  local path=land.findPathOnRoads("roads", nodeA.coordinate.x, nodeA.coordinate.z, nodeB.coordinate.x, nodeB.coordinate.z)
  if path then
    local dist=0
    for i=2,#path do
      local b=path[i] --DCS#Vec2
      local a=path[i-1] --DCS#Vec2
      dist=dist+UTILS.VecDist2D(a,b)
    end
    return dist
  end
  return math.huge
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- Misc functions
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 --- Find the closest node from a given coordinate.
 -- @param #ASTAR self
 -- @param Core.Point#COORDINATE Coordinate.
 -- @return #ASTAR.Node Cloest node to the coordinate.
 -- @return #number Distance to closest node in meters.
 function ASTAR:FindClosestNode(Coordinate)
  local distMin=math.huge
  local closeNode=nil
  for _,_node in pairs(self.nodes) do
    local node=_node --#ASTAR.Node
    local dist=node.coordinate:Get2DDistance(Coordinate)
    if dist<distMin then
      distMin=dist
      closeNode=node
    end
  end
  return closeNode, distMin
 end
 --- Find the start node.
 -- @param #ASTAR self
 -- @param #ASTAR.Node Node The node to be added to the nodes table.
 -- @return #ASTAR self
 function ASTAR:FindStartNode()
  local node, dist=self:FindClosestNode(self.startCoord)
  self.startNode=node
  if dist>1000 then
    self:T(self.lid.."Adding start node to node grid!")
    self:AddNode(node)
  end
  return self
 end
 --- Add a node.
 -- @param #ASTAR self
 -- @param #ASTAR.Node Node The node to be added to the nodes table.
 -- @return #ASTAR self
 function ASTAR:FindEndNode()
  local node, dist=self:FindClosestNode(self.endCoord)
  self.endNode=node
  if dist>1000 then
    self:T(self.lid.."Adding end node to node grid!")
    self:AddNode(node)
  end
  return self
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- Main A* pathfinding function
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 --- A* pathfinding function. This seaches the path along nodes between start and end nodes/coordinates.
 -- @param #ASTAR self
 -- @param #boolean ExcludeStartNode If *true*, do not include start node in found path. Default is to include it.
 -- @param #boolean ExcludeEndNode If *true*, do not include end node in found path. Default is to include it.
 -- @return #table Table of nodes from start to finish.
 function ASTAR:GetPath(ExcludeStartNode, ExcludeEndNode)
  self:FindStartNode()
  self:FindEndNode()
  local nodes=self.nodes
  local start=self.startNode
  local goal=self.endNode
  -- Sets.
  local openset   = {}
  local closedset = {}
  local came_from = {}
  local g_score   = {}
  local f_score   = {}
  openset[start.id]=true
  local Nopen=1
  -- Initial scores.
  g_score[start.id]=0
  f_score[start.id]=g_score[start.id]+self:_HeuristicCost(start, goal)
  -- Set start time.
  local T0=timer.getAbsTime()
  -- Debug message.
  local text=string.format("Starting A* pathfinding with %d Nodes", self.Nnodes)
  self:T(self.lid..text)
  local Tstart=UTILS.GetOSTime()
  -- Loop while we still have an open set.
  while Nopen > 0 do
    -- Get current node.
    local current=self:_LowestFscore(openset, f_score)
    -- Check if we are at the end node.
    if current.id==goal.id then
      local path=self:_UnwindPath({}, came_from, goal)
      if not ExcludeEndNode then
        table.insert(path, goal)
      end
      if ExcludeStartNode then
        table.remove(path, 1)
      end
      local Tstop=UTILS.GetOSTime()
      local dT=nil
      if Tstart and Tstop then
        dT=Tstop-Tstart
      end
      -- Debug message.
      local text=string.format("Found path with %d nodes (%d total)", #path, self.Nnodes)
      if dT then
        text=text..string.format(", OS Time %.6f sec", dT)
      end
      text=text..string.format(", Nvalid=%d [%d cached]", self.nvalid, self.nvalidcache)
      text=text..string.format(", Ncost=%d [%d cached]", self.ncost, self.ncostcache)
      self:T(self.lid..text)
      return path
    end
    -- Move Node from open to closed set.
    openset[current.id]=nil
    Nopen=Nopen-1
    closedset[current.id]=true
    -- Get neighbour nodes.
    local neighbors=self:_NeighbourNodes(current, nodes)
    -- Loop over neighbours.
    for _,neighbor in pairs(neighbors) do
      if self:_NotIn(closedset, neighbor.id) then
        local tentative_g_score=g_score[current.id]+self:_DistNodes(current, neighbor)
        if self:_NotIn(openset, neighbor.id) or tentative_g_score < g_score[neighbor.id] then
          came_from[neighbor]=current
          g_score[neighbor.id]=tentative_g_score
          f_score[neighbor.id]=g_score[neighbor.id]+self:_HeuristicCost(neighbor, goal)
          if self:_NotIn(openset, neighbor.id) then
            -- Add to open set.
            openset[neighbor.id]=true
            Nopen=Nopen+1
          end
        end
      end
    end
  end
  -- Debug message.
  local text=string.format("WARNING: Could NOT find valid path!")
  self:E(self.lid..text)
  MESSAGE:New(text, 60, "ASTAR"):ToAllIf(self.Debug)
  return nil -- no valid path
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- A* pathfinding helper functions
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 --- Heuristic "cost" function to go from node A to node B. Default is the distance between the nodes.
 -- @param #ASTAR self
 -- @param #ASTAR.Node nodeA Node A.
 -- @param #ASTAR.Node nodeB Node B.
 -- @return #number "Cost" to go from node A to node B.
 function ASTAR:_HeuristicCost(nodeA, nodeB)
  -- Counter.
  self.ncost=self.ncost+1
  -- Get chached cost if available.
  local cost=nodeA.cost[nodeB.id]
  if cost~=nil then
    self.ncostcache=self.ncostcache+1
    return cost
  end
  local cost=nil
  if self.CostFunc then
    cost=self.CostFunc(nodeA, nodeB, unpack(self.CostArg))
  else
    cost=self:_DistNodes(nodeA, nodeB)
  end
  nodeA.cost[nodeB.id]=cost
  nodeB.cost[nodeA.id]=cost  -- Symmetric problem. 
  return cost
 end
 --- Check if going from a node to a neighbour is possible.
 -- @param #ASTAR self
 -- @param #ASTAR.Node node A node.
 -- @param #ASTAR.Node neighbor Neighbour node.
 -- @return #boolean If true, transition between nodes is possible.
 function ASTAR:_IsValidNeighbour(node, neighbor)
  -- Counter.
  self.nvalid=self.nvalid+1
  local valid=node.valid[neighbor.id]
  if valid~=nil then
    --env.info(string.format("Node %d has valid=%s neighbour %d", node.id, tostring(valid), neighbor.id))
    self.nvalidcache=self.nvalidcache+1
    return valid
  end
  local valid=nil
  if self.ValidNeighbourFunc then
    valid=self.ValidNeighbourFunc(node, neighbor, unpack(self.ValidNeighbourArg))  
  else
    valid=true
  end
  node.valid[neighbor.id]=valid
  neighbor.valid[node.id]=valid  -- Symmetric problem. 
  return valid
 end
 --- Calculate 2D distance between two nodes.
 -- @param #ASTAR self
 -- @param #ASTAR.Node nodeA Node A.
 -- @param #ASTAR.Node nodeB Node B.
 -- @return #number Distance between nodes in meters.
 function ASTAR:_DistNodes(nodeA, nodeB)
  return nodeA.coordinate:Get2DDistance(nodeB.coordinate)
 end
 --- Function that calculates the lowest F score.
 -- @param #ASTAR self
 -- @param #table set The set of nodes IDs.
 -- @param #number f_score F score.
 -- @return #ASTAR.Node Best node.
 function ASTAR:_LowestFscore(set, f_score)
  local lowest, bestNode = ASTAR.INF, nil
  for nid,node in pairs(set) do
    local score=f_score[nid]
    if score<lowest then
      lowest, bestNode = score, nid
    end
  end
  return self.nodes[bestNode]
 end
 --- Function to get valid neighbours of a node.
 -- @param #ASTAR self
 -- @param #ASTAR.Node theNode The node.
 -- @param #table nodes Possible neighbours.
 -- @param #table Valid neighbour nodes.
 function ASTAR:_NeighbourNodes(theNode, nodes)
  local neighbors = {}
  for _,node in pairs(nodes) do
    if theNode.id~=node.id then
      local isvalid=self:_IsValidNeighbour(theNode, node)
      if isvalid then
        table.insert(neighbors, node)
      end
    end
  end
  return neighbors
 end
 --- Function to check if a node is not in a set.
 -- @param #ASTAR self
 -- @param #table set Set of nodes.
 -- @param #ASTAR.Node theNode The node to check.
 -- @return #boolean If true, the node is not in the set.
 function ASTAR:_NotIn(set, theNode)
  return set[theNode]==nil
 end
 --- Unwind path function.
 -- @param #ASTAR self
 -- @param #table flat_path Flat path.
 -- @param #table map Map.
 -- @param #ASTAR.Node current_node The current node.
 -- @return #table Unwinded path.
 function ASTAR:_UnwindPath( flat_path, map, current_node )
  if map [current_node] then
    table.insert (flat_path, 1, map[current_node]) 
    return self:_UnwindPath(flat_path, map, map[current_node])
  else
    return flat_path
  end
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
--- a/Development/Moose/Core/Base.lua
+++ b/Development/Moose/Core/Base.lua
@@ -157,7 +157,7 @@ local _ClassID = 0
 --        self:SmokeBlue()
 --      end
 --
-- See the @{Event} module for more information about event handling.
+-- See the @{Core.Event} module for more information about event handling.
 --
 -- # 4. Class identification methods.
 --
@@ -229,7 +229,8 @@ FORMATION = {
 -- @param #BASE self
 -- @return #BASE
 function BASE:New()
-  local self = routines.utils.deepCopy( self ) -- Create a new self instance
+  --local self = routines.utils.deepCopy( self ) -- Create a new self instance
  local self = UTILS.DeepCopy(self)
  _ClassID = _ClassID + 1
  self.ClassID = _ClassID
@@ -411,20 +412,20 @@ do -- Event Handling
    return _EVENTDISPATCHER
  end
-  --- Get the Class @{Event} processing Priority.
+  --- Get the Class @{Core.Event} processing Priority.
  -- The Event processing Priority is a number from 1 to 10,
  -- reflecting the order of the classes subscribed to the Event to be processed.
  -- @param #BASE self
-  -- @return #number The @{Event} processing Priority.
+  -- @return #number The @{Core.Event} processing Priority.
  function BASE:GetEventPriority()
    return self._.EventPriority or 5
  end
-  --- Set the Class @{Event} processing Priority.
+  --- Set the Class @{Core.Event} processing Priority.
  -- The Event processing Priority is a number from 1 to 10,
  -- reflecting the order of the classes subscribed to the Event to be processed.
  -- @param #BASE self
-  -- @param #number EventPriority The @{Event} processing Priority.
+  -- @param #number EventPriority The @{Core.Event} processing Priority.
  -- @return #BASE self
  function BASE:SetEventPriority( EventPriority )
    self._.EventPriority = EventPriority
@@ -463,131 +464,152 @@ do -- Event Handling
    return self
  end
-  -- Event handling function prototypes
+  -- Event handling function prototypes - Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  --- Occurs whenever any unit in a mission fires a weapon. But not any machine gun or autocannon based weapon, those are handled by EVENT.ShootingStart.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- @function [parent=#BASE] OnEventShot
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs whenever an object is hit by a weapon.
-  -- initiator : The unit object the fired the weapon.
+  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
-  -- weapon: Weapon object that hit the target.
+  -- initiator : The unit object the fired the weapon
  -- weapon: Weapon object that hit the target
  -- target: The Object that was hit. 
  -- @function [parent=#BASE] OnEventHit
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when an aircraft takes off from an airbase, farp, or ship.
-  -- initiator : The unit that took off.
+  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
-  -- place: Object from where the AI took-off from. Can be an Airbase Object, FARP, or Ships.
+  -- initiator : The unit that tookoff
  -- place: Object from where the AI took-off from. Can be an Airbase Object, FARP, or Ships 
  -- @function [parent=#BASE] OnEventTakeoff
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when an aircraft lands at an airbase, farp or ship
-  -- initiator : The unit that has landed.
+  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
-  -- place: Object that the unit landed on. Can be an Airbase Object, FARP, or Ships.
+  -- initiator : The unit that has landed
  -- place: Object that the unit landed on. Can be an Airbase Object, FARP, or Ships 
  -- @function [parent=#BASE] OnEventLand
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when any aircraft crashes into the ground and is completely destroyed.
-  -- initiator : The unit that has crashed.
+  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that has crashed 
  -- @function [parent=#BASE] OnEventCrash
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when a pilot ejects from an aircraft
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that has ejected 
  -- @function [parent=#BASE] OnEventEjection
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when an aircraft connects with a tanker and begins taking on fuel.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that is receiving fuel. 
  -- @function [parent=#BASE] OnEventRefueling
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when an object is dead.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that is dead. 
  -- @function [parent=#BASE] OnEventDead
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
-  --- Occurs when an object is completely destroyed.
+  --- Occurs when an Event for an object is triggered.
-  -- initiator : The unit that is was destroyed.
+  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that triggered the event. 
  -- @function [parent=#BASE] OnEvent
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when the pilot of an aircraft is killed. Can occur either if the player is alive and crashes or if a weapon kills the pilot without completely destroying the plane.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that the pilot has died in. 
  -- @function [parent=#BASE] OnEventPilotDead
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when a ground unit captures either an airbase or a farp.
-  -- initiator : The unit that captured the base.
+  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that captured the base
  -- place: The airbase that was captured, can be a FARP or Airbase. When calling place:getCoalition() the faction will already be the new owning faction. 
  -- @function [parent=#BASE] OnEventBaseCaptured
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
-  --- Occurs when a mission starts.
+  --- Occurs when a mission starts
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes. 
  -- @function [parent=#BASE] OnEventMissionStart
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
-  --- Occurs when a mission ends.
+  --- Occurs when a mission ends
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- @function [parent=#BASE] OnEventMissionEnd
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when an aircraft is finished taking fuel.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that was receiving fuel. 
  -- @function [parent=#BASE] OnEventRefuelingStop
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when any object is spawned into the mission.
-  -- initiator : The unit that was spawned.
+  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that was spawned 
  -- @function [parent=#BASE] OnEventBirth
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when any system fails on a human controlled aircraft.
-  -- initiator : The unit that had the failure.
+  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that had the failure 
  -- @function [parent=#BASE] OnEventHumanFailure
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when any aircraft starts its engines.
-  -- initiator : The unit that is starting its engines..
+  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that is starting its engines. 
  -- @function [parent=#BASE] OnEventEngineStartup
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when any aircraft shuts down its engines.
-  -- initiator : The unit that is stopping its engines..
+  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that is stopping its engines. 
  -- @function [parent=#BASE] OnEventEngineShutdown
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
-  --- Occurs when any player assumes direct control of a unit.
+  --- Occurs when any player assumes direct control of a unit. Note - not Mulitplayer safe. Use PlayerEnterAircraft.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that is being taken control of. 
  -- @function [parent=#BASE] OnEventPlayerEnterUnit
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when any player relieves control of a unit to the AI.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that the player left. 
  -- @function [parent=#BASE] OnEventPlayerLeaveUnit
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when any unit begins firing a weapon that has a high rate of fire. Most common with aircraft cannons (GAU-8), autocannons, and machine guns.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that is doing the shooting.
  -- target: The unit that is being targeted.
  -- @function [parent=#BASE] OnEventShootingStart
@@ -595,24 +617,28 @@ do -- Event Handling
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when any unit stops firing its weapon. Event will always correspond with a shooting start event.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- initiator : The unit that was doing the shooting. 
  -- @function [parent=#BASE] OnEventShootingEnd
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when a new mark was added.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- MarkID: ID of the mark. 
  -- @function [parent=#BASE] OnEventMarkAdded
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when a mark was removed.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- MarkID: ID of the mark. 
  -- @function [parent=#BASE] OnEventMarkRemoved
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when a mark text was changed.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- MarkID: ID of the mark. 
  -- @function [parent=#BASE] OnEventMarkChange
  -- @param #BASE self
@@ -628,13 +654,15 @@ do -- Event Handling
  --- Occurs when any modification to the "Score" as seen on the debrief menu would occur.
  -- There is no information on what values the score was changed to. Event is likely similar to player_comment in this regard.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- @function [parent=#BASE] OnEventScore
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs on the death of a unit. Contains more and different information. Similar to unit_lost it will occur for aircraft before the aircraft crash event occurs.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- 
-  -- * initiator: The unit that killed the target.
+  -- * initiator: The unit that killed the target
  -- * target: Target Object
  -- * weapon: Weapon Object
  --
@@ -644,11 +672,13 @@ do -- Event Handling
  --- Occurs when any modification to the "Score" as seen on the debrief menu would occur.
  -- There is no information on what values the score was changed to. Event is likely similar to player_comment in this regard.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- @function [parent=#BASE] OnEventScore
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when the game thinks an object is destroyed.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- 
  -- * initiator: The unit that is was destroyed.
  --
@@ -657,6 +687,7 @@ do -- Event Handling
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs shortly after the landing animation of an ejected pilot touching the ground and standing up. Event does not occur if the pilot lands in the water and sub combs to Davey Jones Locker.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- 
  -- * initiator: Static object representing the ejected pilot. Place : Aircraft that the pilot ejected from.
  -- * place: may not return as a valid object if the aircraft has crashed into the ground and no longer exists.
@@ -667,36 +698,43 @@ do -- Event Handling
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Paratrooper landing.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- @function [parent=#BASE] OnEventParatrooperLanding
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Discard chair after ejection.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- @function [parent=#BASE] OnEventDiscardChairAfterEjection
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Weapon add. Fires when entering a mission per pylon with the name of the weapon (double pylons not counted, infinite wep reload not counted.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- @function [parent=#BASE] OnEventParatrooperLanding
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Trigger zone.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- @function [parent=#BASE] OnEventTriggerZone
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Landing quality mark. 
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- @function [parent=#BASE] OnEventLandingQualityMark
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- BDA.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- @function [parent=#BASE] OnEventBDA
  -- @param #BASE self
  -- @param Core.Event#EVENTDATA EventData The EventData structure.
  --- Occurs when a player enters a slot and takes control of an aircraft.
  -- Have a look at the class @{Core.Event#EVENT} as these are just the prototypes.
  -- **NOTE**: This is a workaround of a long standing DCS bug with the PLAYER_ENTER_UNIT event. 
  -- initiator : The unit that is being taken control of. 
  -- @function [parent=#BASE] OnEventPlayerEnterAircraft
@@ -744,17 +782,34 @@ function BASE:CreateEventCrash( EventTime, Initiator, IniObjectCategory )
  world.onEvent( Event )
 end
 --- Creation of a Crash Event.
 -- @param #BASE self
 -- @param DCS#Time EventTime The time stamp of the event.
 -- @param DCS#Object Initiator The initiating object of the event.
 function BASE:CreateEventUnitLost(EventTime, Initiator)
  self:F( { EventTime, Initiator } )
  local Event = {
    id = world.event.S_EVENT_UNIT_LOST,
    time = EventTime,
    initiator = Initiator,
    }
  world.onEvent( Event )
 end
 --- Creation of a Dead Event.
 -- @param #BASE self
 -- @param DCS#Time EventTime The time stamp of the event.
 -- @param DCS#Object Initiator The initiating object of the event.
-function BASE:CreateEventDead( EventTime, Initiator )
+function BASE:CreateEventDead( EventTime, Initiator, IniObjectCategory )
-  self:F( { EventTime, Initiator } )
+  self:F( { EventTime, Initiator, IniObjectCategory } )
  local Event = {
    id = world.event.S_EVENT_DEAD,
    time = EventTime,
    initiator = Initiator,
    IniObjectCategory = IniObjectCategory,
    }
  world.onEvent( Event )
@@ -801,13 +856,12 @@ function BASE:CreateEventPlayerEnterAircraft( PlayerUnit )
    local Event = {
      id = EVENTS.PlayerEnterAircraft,
      time = timer.getTime(),
-    initiator = PlayerUnit:GetDCSObject(),
+      initiator = PlayerUnit:GetDCSObject()
      }
    world.onEvent(Event)
  end  
 -- TODO: Complete DCS#Event structure.
 --- The main event handling function... This function captures all events generated for the class.
 -- @param #BASE self
 -- @param DCS#Event event
@@ -846,20 +900,22 @@ do -- Scheduling
  -- @param #number Start Specifies the amount of seconds that will be waited before the scheduling is started, and the event function is called.
  -- @param #function SchedulerFunction The event function to be called when a timer event occurs. The event function needs to accept the parameters specified in SchedulerArguments.
  -- @param #table ... Optional arguments that can be given as part of scheduler. The arguments need to be given as a table { param1, param 2, ... }.
-  -- @return #number The ScheduleID of the planned schedule.
+  -- @return #string The Schedule ID of the planned schedule.
  function BASE:ScheduleOnce( Start, SchedulerFunction, ... )
    self:F2( { Start } )
    self:T3( { ... } )
    -- Object name.
    local ObjectName = "-"
    ObjectName = self.ClassName .. self.ClassID
    -- Debug info.
    self:F3( { "ScheduleOnce: ", ObjectName,  Start } )
    if not self.Scheduler then
      self.Scheduler = SCHEDULER:New( self )
    end
    -- FF this was wrong!
    --[[
    local ScheduleID = _SCHEDULEDISPATCHER:AddSchedule( 
      self, 
      SchedulerFunction,
@@ -869,6 +925,10 @@ do -- Scheduling
      nil,
      nil
    )
    ]]
    -- NOTE: MasterObject (first parameter) needs to be nil or it will be the first argument passed to the SchedulerFunction!
    local ScheduleID = self.Scheduler:Schedule(nil, SchedulerFunction, {...}, Start)
    self._.Schedules[#self._.Schedules+1] = ScheduleID
@@ -883,7 +943,7 @@ do -- Scheduling
  -- @param #number Stop Specifies the amount of seconds when the scheduler will be stopped.
  -- @param #function SchedulerFunction The event function to be called when a timer event occurs. The event function needs to accept the parameters specified in SchedulerArguments.
  -- @param #table ... Optional arguments that can be given as part of scheduler. The arguments need to be given as a table { param1, param 2, ... }.
-  -- @return #number The ScheduleID of the planned schedule.
+  -- @return #string The Schedule ID of the planned schedule.
  function BASE:ScheduleRepeat( Start, Repeat, RandomizeFactor, Stop, SchedulerFunction, ... )
    self:F2( { Start } )
    self:T3( { ... } )
@@ -897,8 +957,9 @@ do -- Scheduling
      self.Scheduler = SCHEDULER:New( self )
    end
    -- NOTE: MasterObject (first parameter) should(!) be nil as it will be the first argument passed to the SchedulerFunction!
    local ScheduleID = self.Scheduler:Schedule(
-                         self,
+      nil, 
      SchedulerFunction,
      { ... },
      Start,
@@ -915,13 +976,13 @@ do -- Scheduling
  --- Stops the Schedule.
  -- @param #BASE self
-  -- @param #function SchedulerFunction The event function to be called when a timer event occurs. The event function needs to accept the parameters specified in SchedulerArguments.
+  -- @param #string SchedulerID (Optional) Scheduler ID to be stopped. If nil, all pending schedules are stopped.
-  function BASE:ScheduleStop( SchedulerFunction )
+  function BASE:ScheduleStop( SchedulerID )  
    self:F3( { "ScheduleStop:" } )
    if self.Scheduler then
-      _SCHEDULEDISPATCHER:Stop( self.Scheduler, self._.Schedules[SchedulerFunction] )
+      --_SCHEDULEDISPATCHER:Stop( self.Scheduler, self._.Schedules[SchedulerFunction] )
      _SCHEDULEDISPATCHER:Stop(self.Scheduler, SchedulerID)
    end
  end
@@ -1062,7 +1123,7 @@ end
 --- Set tracing for a class
 -- @param #BASE self
-- @param #string Class
+-- @param #string Class Class name.
 function BASE:TraceClass( Class )
  _TraceClass[Class] = true
  _TraceClassMethod[Class] = {}
@@ -1071,8 +1132,8 @@ end
 --- Set tracing for a specific method of  class
 -- @param #BASE self
-- @param #string Class
+-- @param #string Class Class name.
-- @param #string Method
+-- @param #string Method Method.
 function BASE:TraceClassMethod( Class, Method )
  if not _TraceClassMethod[Class] then
    _TraceClassMethod[Class] = {}
--- a/Development/Moose/Core/Beacon.lua
+++ b/Development/Moose/Core/Beacon.lua
@@ -18,7 +18,7 @@
 -- After attaching a @{#BEACON} to your @{Wrapper.Positionable#POSITIONABLE}, you need to select the right function to activate the kind of beacon you want. 
 -- There are two types of BEACONs available : the (aircraft) TACAN Beacon and the general purpose Radio Beacon.
 -- Note that in both case, you can set an optional parameter : the `BeaconDuration`. This can be very useful to simulate the battery time if your BEACON is
-- attach to a cargo crate, for exemple. 
+-- attach to a cargo crate, for example. 
 -- 
 -- ## Aircraft TACAN Beacon usage
 -- 
@@ -33,7 +33,7 @@
 -- 
 -- @type BEACON
 -- @field #string ClassName Name of the class "BEACON".
-- @field Wrapper.Controllable#CONTROLLABLE Positionable The @{#CONTROLLABLE} that will receive radio capabilities.
+-- @field Wrapper.Controllable#CONTROLLABLE Positionable The @{Wrapper.Controllable#CONTROLLABLE} that will receive radio capabilities.
 -- @extends Core.Base#BASE
 BEACON = {
  ClassName    = "BEACON",
@@ -130,7 +130,7 @@ BEACON.System={
 --- Create a new BEACON Object. This doesn't activate the beacon, though, use @{#BEACON.ActivateTACAN} etc.
 -- If you want to create a BEACON, you probably should use @{Wrapper.Positionable#POSITIONABLE.GetBeacon}() instead.
 -- @param #BEACON self
-- @param Wrapper.Positionable#POSITIONABLE Positionable The @{Positionable} that will receive radio capabilities.
+-- @param Wrapper.Positionable#POSITIONABLE Positionable The @{Wrapper.Positionable} that will receive radio capabilities.
 -- @return #BEACON Beacon object or #nil if the positionable is invalid.
 function BEACON:New(Positionable)
@@ -152,7 +152,6 @@ function BEACON:New(Positionable)
  return nil
 end
 --- Activates a TACAN BEACON.
 -- @param #BEACON self
 -- @param #number Channel TACAN channel, i.e. the "10" part in "10Y".
@@ -245,7 +244,33 @@ function BEACON:ActivateICLS(Channel, Callsign, Duration)
  return self
 end
--- DEPRECATED: Please use @{BEACON:ActivateTACAN}() instead.
+--- Activates a LINK4 BEACON. The unit the BEACON is attached to should be an aircraft carrier supporting this system.
 -- @param #BEACON self
 -- @param #number Frequency LINK4 FRequency in MHz, eg 336.
 -- @param #string Morse The ID that is going to be coded in Morse and broadcasted by the beacon.
 -- @param #number Duration How long will the beacon last in seconds. Omit for forever.
 -- @return #BEACON self
 function BEACON:ActivateLink4(Frequency, Morse, Duration)
  self:F({Frequency=Frequency, Morse=Morse, Duration=Duration})
  -- Attached unit.
  local UnitID=self.Positionable:GetID()
  -- Debug
  self:T2({"LINK4 BEACON started!"})
  -- Start beacon.
  self.Positionable:CommandActivateLink4(Frequency,UnitID,Morse)
  -- Stop sheduler
  if Duration then -- Schedule the stop of the BEACON if asked by the MD
    self.Positionable:CommandDeactivateLink4(Duration)
  end
  return self
 end
 --- DEPRECATED: Please use @{#BEACON.ActivateTACAN}() instead.
 -- Activates a TACAN BEACON on an Aircraft.
 -- @param #BEACON self
 -- @param #number TACANChannel (the "10" part in "10Y"). Note that AA TACAN are only available on Y Channels
@@ -325,7 +350,6 @@ function BEACON:StopAATACAN()
  end
 end
 --- Activates a general purpose Radio Beacon
 -- This uses the very generic singleton function "trigger.action.radioTransmission()" provided by DCS to broadcast a sound file on a specific frequency.
 -- Although any frequency could be used, only a few DCS Modules can home on radio beacons at the time of writing, i.e. the Mi-8, Huey, Gazelle etc.
@@ -403,7 +427,7 @@ function BEACON:RadioBeacon(FileName, Frequency, Modulation, Power, BeaconDurati
  end 
 end
--- Stop the Radio Beacon
+--- Stops the Radio Beacon
 -- @param #BEACON self
 -- @return #BEACON self
 function BEACON:StopRadioBeacon()
--- a/Development/Moose/Core/Condition.lua
+++ b/Development/Moose/Core/Condition.lua
@@ -0,0 +1,464 @@
 --- **Core** - Define any or all conditions to be evaluated.
 --
 -- **Main Features:**
 --
 --    * Add arbitrary numbers of conditon functions
 --    * Evaluate *any* or *all* conditions
 --
 -- ===
 --
 -- ## Example Missions:
 --
 -- Demo missions can be found on [github](https://github.com/FlightControl-Master/MOOSE_MISSIONS/tree/develop/OPS%20-%20Operation).
 --
 -- ===
 --
 -- ### Author: **funkyfranky**
 --
 -- ===
 -- @module Core.Condition
 -- @image MOOSE.JPG
 --- CONDITON class.
 -- @type CONDITION
 -- @field #string ClassName Name of the class.
 -- @field #string lid Class id string for output to DCS log file.
 -- @field #string name Name of the condition.
 -- @field #boolean isAny General functions are evaluated as any condition.
 -- @field #boolean negateResult Negate result of evaluation.
 -- @field #boolean noneResult Boolean that is returned if no condition functions at all were specified.
 -- @field #table functionsGen General condition functions.
 -- @field #table functionsAny Any condition functions.
 -- @field #table functionsAll All condition functions.
 -- @field #number functionCounter Running number to determine the unique ID of condition functions.
 -- @field #boolean defaultPersist Default persistence of condition functions.
 -- 
 -- @extends Core.Base#BASE
 --- *Better three hours too soon than a minute too late.* - William Shakespeare
 --
 -- ===
 --
 -- # The CONDITION Concept
 -- 
 -- 
 --
 -- @field #CONDITION
 CONDITION = {
  ClassName       = "CONDITION",
  lid             =   nil,
  functionsGen    =    {},
  functionsAny    =    {},
  functionsAll    =    {},
  functionCounter =     0, 
  defaultPersist  = false,
 }
 --- Condition function.
 -- @type CONDITION.Function
 -- @field #number uid Unique ID of the condition function.
 -- @field #string type Type of the condition function: "gen", "any", "all".
 -- @field #boolean persistence If `true`, this is persistent.
 -- @field #function func Callback function to check for a condition. Must return a `#boolean`.
 -- @field #table arg (Optional) Arguments passed to the condition callback function if any.
 --- CONDITION class version.
 -- @field #string version
 CONDITION.version="0.3.0"
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- TODO list
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- TODO: Make FSM. No sure if really necessary.
 -- DONE: Option to remove condition functions.
 -- DONE: Persistence option for condition functions.
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- Constructor
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 --- Create a new CONDITION object.
 -- @param #CONDITION self
 -- @param #string Name (Optional) Name used in the logs. 
 -- @return #CONDITION self
 function CONDITION:New(Name)
  -- Inherit BASE.
  local self=BASE:Inherit(self, BASE:New()) --#CONDITION
  self.name=Name or "Condition X"
  self:SetNoneResult(false)
  self.lid=string.format("%s | ", self.name)
  return self
 end
 --- Set that general condition functions return `true` if `any` function returns `true`. Default is that *all* functions must return `true`.
 -- @param #CONDITION self
 -- @param #boolean Any If `true`, *any* condition can be true. Else *all* conditions must result `true`.
 -- @return #CONDITION self
 function CONDITION:SetAny(Any)
  self.isAny=Any
  return self
 end
 --- Negate result.
 -- @param #CONDITION self
 -- @param #boolean Negate If `true`, result is negated else  not.
 -- @return #CONDITION self
 function CONDITION:SetNegateResult(Negate)
  self.negateResult=Negate
  return self
 end
 --- Set whether `true` or `false` is returned, if no conditions at all were specified. By default `false` is returned.
 -- @param #CONDITION self
 -- @param #boolean ReturnValue Returns this boolean.
 -- @return #CONDITION self
 function CONDITION:SetNoneResult(ReturnValue)
  if not ReturnValue then
    self.noneResult=false
  else
    self.noneResult=true
  end
  return self
 end
 --- Set whether condition functions are persistent, *i.e.* are removed.
 -- @param #CONDITION self
 -- @param #boolean IsPersistent If `true`, condition functions are persistent.
 -- @return #CONDITION self
 function CONDITION:SetDefaultPersistence(IsPersistent)
  self.defaultPersist=IsPersistent
  return self
 end
 --- Add a function that is evaluated. It must return a `#boolean` value, *i.e.* either `true` or `false` (or `nil`).
 -- @param #CONDITION self
 -- @param #function Function The function to call.
 -- @param ... (Optional) Parameters passed to the function (if any).
 -- 
 -- @usage
 -- local function isAequalB(a, b)
 --   return a==b
 -- end
 -- 
 -- myCondition:AddFunction(isAequalB, a, b)
 -- 
 -- @return #CONDITION.Function Condition function table.
 function CONDITION:AddFunction(Function, ...)
  -- Condition function.
  local condition=self:_CreateCondition(0, Function, ...)
  -- Add to table.
  table.insert(self.functionsGen, condition)
  return condition
 end
 --- Add a function that is evaluated. It must return a `#boolean` value, *i.e.* either `true` or `false` (or `nil`).
 -- @param #CONDITION self
 -- @param #function Function The function to call.
 -- @param ... (Optional) Parameters passed to the function (if any).
 -- @return #CONDITION.Function Condition function table.
 function CONDITION:AddFunctionAny(Function, ...)
  -- Condition function.
  local condition=self:_CreateCondition(1, Function, ...)
  -- Add to table.
  table.insert(self.functionsAny, condition)
  return condition
 end
 --- Add a function that is evaluated. It must return a `#boolean` value, *i.e.* either `true` or `false` (or `nil`).
 -- @param #CONDITION self
 -- @param #function Function The function to call.
 -- @param ... (Optional) Parameters passed to the function (if any).
 -- @return #CONDITION.Function Condition function table.
 function CONDITION:AddFunctionAll(Function, ...)
  -- Condition function.
  local condition=self:_CreateCondition(2, Function, ...)
  -- Add to table.
  table.insert(self.functionsAll, condition)
  return condition
 end
 --- Remove a condition function.
 -- @param #CONDITION self
 -- @param #CONDITION.Function ConditionFunction The condition function to be removed.
 -- @return #CONDITION self
 function CONDITION:RemoveFunction(ConditionFunction)
  if ConditionFunction then
    local data=nil
    if ConditionFunction.type==0 then
      data=self.functionsGen
    elseif ConditionFunction.type==1 then
      data=self.functionsAny
    elseif ConditionFunction.type==2 then
      data=self.functionsAll
    end
    if data then
      for i=#data,1,-1 do
        local cf=data[i] --#CONDITION.Function
        if cf.uid==ConditionFunction.uid then
          self:T(self.lid..string.format("Removed ConditionFunction UID=%d", cf.uid))
          table.remove(data, i)
          return self
        end
      end
    end
  end
  return self
 end
 --- Remove all non-persistant condition functions.
 -- @param #CONDITION self
 -- @return #CONDITION self
 function CONDITION:RemoveNonPersistant()
  for i=#self.functionsGen,1,-1 do
    local cf=self.functionsGen[i] --#CONDITION.Function
    if not cf.persistence then
      table.remove(self.functionsGen, i)
    end
  end 
  for i=#self.functionsAll,1,-1 do
    local cf=self.functionsAll[i] --#CONDITION.Function
    if not cf.persistence then
      table.remove(self.functionsAll, i)
    end
  end 
  for i=#self.functionsAny,1,-1 do
    local cf=self.functionsAny[i] --#CONDITION.Function
    if not cf.persistence then
      table.remove(self.functionsAny, i)
    end
  end 
  return self
 end
 --- Evaluate conditon functions.
 -- @param #CONDITION self
 -- @param #boolean AnyTrue If `true`, evaluation return `true` if *any* condition function returns `true`. By default, *all* condition functions must return true.
 -- @return #boolean Result of condition functions.
 function CONDITION:Evaluate(AnyTrue)
  -- Check if at least one function was given.
  if #self.functionsAll + #self.functionsAny + #self.functionsAll == 0 then
    return self.noneResult
  end
  -- Any condition for gen.
  local evalAny=self.isAny
  if AnyTrue~=nil then
    evalAny=AnyTrue
  end
  local isGen=nil
  if evalAny then
    isGen=self:_EvalConditionsAny(self.functionsGen)
  else
    isGen=self:_EvalConditionsAll(self.functionsGen)
  end
  -- Is any?
  local isAny=self:_EvalConditionsAny(self.functionsAny)
  -- Is all?
  local isAll=self:_EvalConditionsAll(self.functionsAll)
  -- Result.
  local result=isGen and isAny and isAll
  -- Negate result.
  if self.negateResult then
    result=not result
  end
  -- Debug message.
  self:T(self.lid..string.format("Evaluate: isGen=%s, isAny=%s, isAll=%s (negate=%s) ==> result=%s", tostring(isGen), tostring(isAny), tostring(isAll), tostring(self.negateResult), tostring(result)))
  return result
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- Private Functions
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 --- Check if all given condition are true.
 -- @param #CONDITION self
 -- @param #table functions Functions to evaluate.
 -- @return #boolean If true, all conditions were true (or functions was empty/nil). Returns false if at least one condition returned false.
 function CONDITION:_EvalConditionsAll(functions)
  -- At least one condition?
  local gotone=false
  -- Any stop condition must be true.
  for _,_condition in pairs(functions or {}) do
    local condition=_condition --#CONDITION.Function
    -- At least one condition was defined.
    gotone=true
    -- Call function.
    local istrue=condition.func(unpack(condition.arg))
    -- Any false will return false.
    if not istrue then
      return false
    end
  end
  -- All conditions were true.
  return true
 end
 --- Check if any of the given conditions is true.
 -- @param #CONDITION self
 -- @param #table functions Functions to evaluate.
 -- @return #boolean If true, at least one condition is true (or functions was emtpy/nil).
 function CONDITION:_EvalConditionsAny(functions)
  -- At least one condition?
  local gotone=false
  -- Any stop condition must be true.
  for _,_condition in pairs(functions or {}) do
    local condition=_condition --#CONDITION.Function
    -- At least one condition was defined.
    gotone=true
    -- Call function.
    local istrue=condition.func(unpack(condition.arg))
    -- Any true will return true.
    if istrue then
      return true
    end
  end
  -- No condition was true.
  if gotone then
    return false
  else
    -- No functions passed.
    return true
  end
 end
 --- Create conditon function object.
 -- @param #CONDITION self
 -- @param #number Ftype Function type: 0=Gen, 1=All, 2=Any.
 -- @param #function Function The function to call.
 -- @param ... (Optional) Parameters passed to the function (if any).
 -- @return #CONDITION.Function Condition function.
 function CONDITION:_CreateCondition(Ftype, Function, ...)
  -- Increase counter.
  self.functionCounter=self.functionCounter+1
  local condition={} --#CONDITION.Function
  condition.uid=self.functionCounter
  condition.type=Ftype or 0
  condition.persistence=self.defaultPersist
  condition.func=Function
  condition.arg={}
  if arg then
    condition.arg=arg
  end
  return condition
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- Global Condition Functions
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 --- Condition to check if time is greater than a given threshold time.
 -- @param #number Time Time in seconds.
 -- @param #boolean Absolute If `true`, abs. mission time from `timer.getAbsTime()` is checked. Default is relative mission time from `timer.getTime()`.
 -- @return #boolean Returns `true` if time is greater than give the time.
 function CONDITION.IsTimeGreater(Time, Absolute)
  local Tnow=nil 
  if Absolute then
    Tnow=timer.getAbsTime()
  else
    Tnow=timer.getTime()
  end
  if Tnow>Time then
    return true
  else
    return false      
  end    
  return nil
 end
 --- Function that returns `true` (success) with a certain probability. For example, if you specify `Probability=80` there is an 80% chance that `true` is returned.
 -- Technically, a random number between 0 and 100 is created. If the given success probability is less then this number, `true` is returned.
 -- @param #number Probability Success probability in percent. Default 50 %.
 -- @return #boolean Returns `true` for success and `false` otherwise.
 function CONDITION.IsRandomSuccess(Probability)
  Probability=Probability or 50
  -- Create some randomness.
  math.random()
  math.random()
  math.random()
  -- Number between 0 and 100.
  local N=math.random()*100
  if N<Probability then
    return true
  else
    return false
  end
 end
 --- Function that returns always `true`
 -- @return #boolean Returns `true` unconditionally.
 function CONDITION.ReturnTrue()
  return true
 end
 --- Function that returns always `false`
 -- @return #boolean Returns `false` unconditionally.
 function CONDITION.ReturnFalse()
  return false
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
--- a/Development/Moose/Core/Database.lua
+++ b/Development/Moose/Core/Database.lua
@@ -31,6 +31,7 @@
 -- @module Core.Database
 -- @image Core_Database.JPG
 --- @type DATABASE
 -- @field #string ClassName Name of the class.
 -- @field #table Templates Templates: Units, Groups, Statics, ClientsByName, ClientsByID.
@@ -89,13 +90,15 @@ DATABASE = {
  FLIGHTCONTROLS = {},
 }
-local _DATABASECoalition = {
+local _DATABASECoalition =
  {
    [1] = "Red",
    [2] = "Blue",
    [3] = "Neutral",
  }
-local _DATABASECategory = {
+local _DATABASECategory =
  {
    ["plane"] = Unit.Category.AIRPLANE,
    ["helicopter"] = Unit.Category.HELICOPTER,
    ["vehicle"] = Unit.Category.GROUND_UNIT,
@@ -103,6 +106,7 @@ local _DATABASECategory = {
    ["static"] = Unit.Category.STRUCTURE,
  }
 --- Creates a new DATABASE object, building a set of units belonging to a coalitions, categories, countries, types or with defined prefix names.
 -- @param #DATABASE self
 -- @return #DATABASE
@@ -120,6 +124,7 @@ function DATABASE:New()
  self:HandleEvent( EVENTS.Dead, self._EventOnDeadOrCrash )
  self:HandleEvent( EVENTS.Crash, self._EventOnDeadOrCrash )
  self:HandleEvent( EVENTS.RemoveUnit, self._EventOnDeadOrCrash )
  --self:HandleEvent( EVENTS.UnitLost, self._EventOnDeadOrCrash )  -- DCS 2.7.1 for Aerial units no dead event ATM
  self:HandleEvent( EVENTS.Hit, self.AccountHits )
  self:HandleEvent( EVENTS.NewCargo )
  self:HandleEvent( EVENTS.DeleteCargo )
@@ -132,8 +137,8 @@ function DATABASE:New()
  self:_RegisterGroupsAndUnits()
  self:_RegisterClients()
  self:_RegisterStatics()
  -- self:_RegisterAirbases()
  --self:_RegisterPlayers()
  --self:_RegisterAirbases()
  self.UNITS_Position = 0
@@ -150,6 +155,7 @@ function DATABASE:FindUnit( UnitName )
  return UnitFound
 end
 --- Adds a Unit based on the Unit Name in the DATABASE.
 -- @param #DATABASE self
 -- @param #string DCSUnitName Unit name.
@@ -157,26 +163,20 @@ end
 function DATABASE:AddUnit( DCSUnitName )
  if not self.UNITS[DCSUnitName] then
    -- Debug info.
    self:T( { "Add UNIT:", DCSUnitName } )
    -- local UnitRegister = UNIT:Register( DCSUnitName )
    -- Register unit
    self.UNITS[DCSUnitName]=UNIT:Register(DCSUnitName)
    -- This is not used anywhere in MOOSE as far as I can see so I remove it until there comes an error somewhere.
    -- table.insert(self.UNITS_Index, DCSUnitName )
  end
  return self.UNITS[DCSUnitName]
 end
 --- Deletes a Unit from the DATABASE based on the Unit Name.
 -- @param #DATABASE self
 function DATABASE:DeleteUnit( DCSUnitName )
  self.UNITS[DCSUnitName] = nil
 end
@@ -194,6 +194,7 @@ function DATABASE:AddStatic( DCSStaticName )
  return nil
 end
 --- Deletes a Static from the DATABASE based on the Static Name.
 -- @param #DATABASE self
 function DATABASE:DeleteStatic( DCSStaticName )
@@ -210,16 +211,6 @@ function DATABASE:FindStatic( StaticName )
  return StaticFound
 end
 --- Finds a AIRBASE based on the AirbaseName.
 -- @param #DATABASE self
 -- @param #string AirbaseName
 -- @return Wrapper.Airbase#AIRBASE The found AIRBASE.
 function DATABASE:FindAirbase( AirbaseName )
  local AirbaseFound = self.AIRBASES[AirbaseName]
  return AirbaseFound
 end
 --- Adds a Airbase based on the Airbase Name in the DATABASE.
 -- @param #DATABASE self
 -- @param #string AirbaseName The name of the airbase.
@@ -233,6 +224,7 @@ function DATABASE:AddAirbase( AirbaseName )
  return self.AIRBASES[AirbaseName]
 end
 --- Deletes a Airbase from the DATABASE based on the Airbase Name.
 -- @param #DATABASE self
 -- @param #string AirbaseName The name of the airbase
@@ -251,9 +243,10 @@ function DATABASE:FindAirbase( AirbaseName )
  return AirbaseFound
 end
 do -- Zones
-  --- Finds a @{Zone} based on the zone name.
+  --- Finds a @{Core.Zone} based on the zone name.
  -- @param #DATABASE self
  -- @param #string ZoneName The name of the zone.
  -- @return Core.Zone#ZONE_BASE The found ZONE.
@@ -263,7 +256,7 @@ do -- Zones
    return ZoneFound
  end
-  --- Adds a @{Zone} based on the zone name in the DATABASE.
+  --- Adds a @{Core.Zone} based on the zone name in the DATABASE.
  -- @param #DATABASE self
  -- @param #string ZoneName The name of the zone.
  -- @param Core.Zone#ZONE_BASE Zone The zone.
@@ -274,7 +267,8 @@ do -- Zones
    end
  end
-  --- Deletes a @{Zone} from the DATABASE based on the zone name.
+
  --- Deletes a @{Core.Zone} from the DATABASE based on the zone name.
  -- @param #DATABASE self
  -- @param #string ZoneName The name of the zone.
  function DATABASE:DeleteZone( ZoneName )
@@ -282,6 +276,7 @@ do -- Zones
    self.ZONES[ZoneName] = nil
  end
  --- Private method that registers new ZONE_BASE derived objects within the DATABASE Object.
  -- @param #DATABASE self
  -- @return #DATABASE self
@@ -314,7 +309,7 @@ do -- Zones
        self:I(string.format("Register ZONE: %s (Polygon, Quad)", ZoneName))
-        Zone = ZONE_POLYGON_BASE:New( ZoneName, ZoneData.verticies )
+        Zone=ZONE_POLYGON:NewFromPointsArray(ZoneName, ZoneData.verticies)
        --for i,vec2 in pairs(ZoneData.verticies) do
        --  local coord=COORDINATE:NewFromVec2(vec2)
@@ -328,6 +323,20 @@ do -- Zones
        -- Store color of zone.
        Zone.Color=color
        -- Store zone ID.
        Zone.ZoneID=ZoneData.zoneId
        -- Store zone properties (if any)
        local ZoneProperties = ZoneData.properties or nil
        Zone.Properties = {}
        if ZoneName and ZoneProperties then
          for _,ZoneProp in ipairs(ZoneProperties) do
            if ZoneProp.key then
              Zone.Properties[ZoneProp.key] = ZoneProp.value
            end
          end
        end
        -- Store in DB.
        self.ZONENAMES[ZoneName] = ZoneName
@@ -363,13 +372,63 @@ do -- Zones
      end
    end
    -- Drawings as zones
    if env.mission.drawings and env.mission.drawings.layers then
      -- Loop over layers.
      for layerID, layerData in pairs(env.mission.drawings.layers or {}) do
        -- Loop over objects in layers.
        for objectID, objectData in pairs(layerData.objects or {}) do
          -- Check for polygon which has at least 4 points (we would need 3 but the origin seems to be there twice)
          if objectData.polygonMode=="free" and objectData.points and #objectData.points>=4 then
            -- Name of the zone.
            local ZoneName=objectData.name or "Unknown Drawing Zone"
            -- Reference point. All other points need to be translated by this.
            local vec2={x=objectData.mapX, y=objectData.mapY}
            -- Copy points array.            
            local points=UTILS.DeepCopy(objectData.points)
            -- Translate points.
            for i,_point in pairs(points) do
              local point=_point --DCS#Vec2                           
              points[i]=UTILS.Vec2Add(point, vec2)
            end     
            -- Remove last point.
            table.remove(points, #points)
            -- Debug output
            self:I(string.format("Register ZONE: %s (Polygon drawing with %d verticies)", ZoneName, #points))                        
            -- Create new polygon zone.
            local Zone=ZONE_POLYGON:NewFromPointsArray(ZoneName, points)
            -- Set color.
            Zone:SetColor({1, 0, 0}, 0.15)
            -- Store in DB.
            self.ZONENAMES[ZoneName] = ZoneName
            -- Add zone.
            self:AddZone(ZoneName, Zone)          
          end        
        end      
      end
    end
  end
 end -- zone
 do -- Zone_Goal
-  --- Finds a @{Zone} based on the zone name.
+  --- Finds a @{Core.Zone} based on the zone name.
  -- @param #DATABASE self
  -- @param #string ZoneName The name of the zone.
  -- @return Core.Zone#ZONE_BASE The found ZONE.
@@ -379,7 +438,7 @@ do -- Zone_Goal
    return ZoneFound
  end
-  --- Adds a @{Zone} based on the zone name in the DATABASE.
+  --- Adds a @{Core.Zone} based on the zone name in the DATABASE.
  -- @param #DATABASE self
  -- @param #string ZoneName The name of the zone.
  -- @param Core.Zone#ZONE_BASE Zone The zone.
@@ -390,7 +449,8 @@ do -- Zone_Goal
    end
  end
-  --- Deletes a @{Zone} from the DATABASE based on the zone name.
+
  --- Deletes a @{Core.Zone} from the DATABASE based on the zone name.
  -- @param #DATABASE self
  -- @param #string ZoneName The name of the zone.
  function DATABASE:DeleteZoneGoal( ZoneName )
@@ -411,6 +471,7 @@ do -- cargo
    end
  end
  --- Deletes a Cargo from the DATABASE based on the Cargo Name.
  -- @param #DATABASE self
  -- @param #string CargoName The name of the airbase
@@ -504,6 +565,7 @@ function DATABASE:FindClient( ClientName )
  return ClientFound
 end
 --- Adds a CLIENT based on the ClientName in the DATABASE.
 -- @param #DATABASE self
 -- @param #string ClientName Name of the Client unit.
@@ -517,6 +579,7 @@ function DATABASE:AddClient( ClientName )
  return self.CLIENTS[ClientName]
 end
 --- Finds a GROUP based on the GroupName.
 -- @param #DATABASE self
 -- @param #string GroupName
@@ -527,6 +590,7 @@ function DATABASE:FindGroup( GroupName )
  return GroupFound
 end
 --- Adds a GROUP based on the GroupName in the DATABASE.
 -- @param #DATABASE self
 function DATABASE:AddGroup( GroupName )
@@ -574,6 +638,7 @@ function DATABASE:GetPlayers()
  return self.PLAYERS
 end
 --- Get the player table from the DATABASE, which contains all UNIT objects.
 -- The player table contains all UNIT objects of the player with the key the name of the player (PlayerName).
 -- @param #DATABASE self
@@ -586,6 +651,7 @@ function DATABASE:GetPlayerUnits()
  return self.PLAYERUNITS
 end
 --- Get the player table from the DATABASE which have joined in the mission historically.
 -- The player table contains all UNIT objects with the key the name of the player (PlayerName).
 -- @param #DATABASE self
@@ -598,6 +664,7 @@ function DATABASE:GetPlayersJoined()
  return self.PLAYERSJOINED
 end
 --- Instantiate new Groups within the DCSRTE.
 -- This method expects EXACTLY the same structure as a structure within the ME, and needs 2 additional fields defined:
 -- SpawnCountryID, SpawnCategoryID
@@ -730,8 +797,9 @@ function DATABASE:_RegisterGroupTemplate( GroupTemplate, CoalitionSide, Category
            Coalition = self.Templates.Groups[GroupTemplateName].CoalitionID,
            Category  = self.Templates.Groups[GroupTemplateName].CategoryID,
            Country   = self.Templates.Groups[GroupTemplateName].CountryID,
-            Units = UnitNames,
+            Units     = UnitNames
-          } )
+          }
        )
 end
 --- Get group template.
@@ -778,8 +846,9 @@ function DATABASE:_RegisterStaticTemplate( StaticTemplate, CoalitionID, Category
  self:T( { Static = self.Templates.Statics[StaticTemplateName].StaticName,
            Coalition = self.Templates.Statics[StaticTemplateName].CoalitionID,
            Category = self.Templates.Statics[StaticTemplateName].CategoryID,
-            Country = self.Templates.Statics[StaticTemplateName].CountryID,
+            Country = self.Templates.Statics[StaticTemplateName].CountryID
-          } )
+          }
        )
  self:AddStatic( StaticTemplateName )
@@ -840,6 +909,20 @@ function DATABASE:GetGroupTemplateFromUnitName( UnitName )
  end
 end
 --- Get group template from unit name.
 -- @param #DATABASE self
 -- @param #string UnitName Name of the unit.
 -- @return #table Group template.
 function DATABASE:GetUnitTemplateFromUnitName( UnitName )
  if self.Templates.Units[UnitName] then
    return self.Templates.Units[UnitName]
  else
    self:E("ERROR: Unit template does not exist for unit "..tostring(UnitName))
    return nil
  end
 end
 --- Get coalition ID from client name.
 -- @param #DATABASE self
 -- @param #string ClientName Name of the Client.
@@ -882,6 +965,8 @@ function DATABASE:GetCategoryFromAirbase( AirbaseName )
  return self.AIRBASES[AirbaseName]:GetCategory()
 end
 --- Private method that registers all alive players in the mission.
 -- @param #DATABASE self
 -- @return #DATABASE self
@@ -905,7 +990,8 @@ function DATABASE:_RegisterPlayers()
  return self
 end
--- Private method that registers all Groups and Units within the mission.
+
 --- Private method that registers all Groups and Units within in the mission.
 -- @param #DATABASE self
 -- @return #DATABASE self
 function DATABASE:_RegisterGroupsAndUnits()
@@ -946,20 +1032,21 @@ function DATABASE:_RegisterGroupsAndUnits()
  return self
 end
--- Private method that registers all Units of skill Client or Player within the mission.
+--- Private method that registers all Units of skill Client or Player within in the mission.
 -- @param #DATABASE self
 -- @return #DATABASE self
 function DATABASE:_RegisterClients()
  for ClientName, ClientTemplate in pairs( self.Templates.ClientsByName ) do
    self:I(string.format("Register Client: %s", tostring(ClientName)))
-    self:AddClient( ClientName )
+    local client=self:AddClient( ClientName )
    client.SpawnCoord=COORDINATE:New(ClientTemplate.x, ClientTemplate.alt, ClientTemplate.y)    
  end
  return self
 end
--- Private method that registers all Statics within the mission.
+--- Private method that registeres all static objects.
 -- @param #DATABASE self
 function DATABASE:_RegisterStatics()
@@ -989,11 +1076,26 @@ function DATABASE:_RegisterAirbases()
 for DCSAirbaseId, DCSAirbase in pairs(world.getAirbases()) do
    self:_RegisterAirbase(DCSAirbase)
  end
  return self
 end
 --- Register a DCS airbase.
 -- @param #DATABASE self
 -- @param DCS#Airbase airbase Airbase.
 -- @return #DATABASE self
 function DATABASE:_RegisterAirbase(airbase)
  if airbase then
    -- Get the airbase name.
-    local DCSAirbaseName = DCSAirbase:getName()
+    local DCSAirbaseName = airbase:getName()
    -- This gave the incorrect value to be inserted into the airdromeID for DCS 2.5.6. Is fixed now.
-    local airbaseID = DCSAirbase:getID()
+    local airbaseID=airbase:getID()
    -- Add and register airbase.
    local airbase=self:AddAirbase( DCSAirbaseName )
@@ -1002,7 +1104,7 @@ function DATABASE:_RegisterAirbases()
    local airbaseUID=airbase:GetID(true)
    -- Debug output.
-    local text = string.format( "Register %s: %s (ID=%d UID=%d), parking=%d [", AIRBASE.CategoryName[airbase.category], tostring( DCSAirbaseName ), airbaseID, airbaseUID, airbase.NparkingTotal )
+    local text=string.format("Register %s: %s (UID=%d), Runways=%d, Parking=%d [", AIRBASE.CategoryName[airbase.category], tostring(DCSAirbaseName), airbaseUID, #airbase.runways, airbase.NparkingTotal)
    for _,terminalType in pairs(AIRBASE.TerminalType) do
      if airbase.NparkingTerminal and airbase.NparkingTerminal[terminalType] then
        text=text..string.format("%d=%d ", terminalType, airbase.NparkingTerminal[terminalType])
@@ -1011,16 +1113,12 @@ function DATABASE:_RegisterAirbases()
    text=text.."]"
    self:I(text)
    -- Check for DCS bug IDs.
    if airbaseID ~= airbase:GetID() then
      -- self:E("WARNING: :getID does NOT match :GetID!")
    end
  end
  return self
 end
 --- Events
 --- Handles the OnBirth event for the alive units set.
@@ -1031,20 +1129,23 @@ function DATABASE:_EventOnBirth( Event )
  if Event.IniDCSUnit then
-    if Event.IniObjectCategory == 3 then
+    if Event.IniObjectCategory == Object.Category.STATIC then
      -- Add static object to DB.
      self:AddStatic( Event.IniDCSUnitName )
    else
-      if Event.IniObjectCategory == 1 then
+      if Event.IniObjectCategory == Object.Category.UNIT then
        -- Add unit and group to DB.
        self:AddUnit( Event.IniDCSUnitName )
        self:AddGroup( Event.IniDCSGroupName )
-        -- Add airbase if it was spawned later in the mission.
+        -- A unit can also be an airbase (e.g. ships).
        local DCSAirbase = Airbase.getByName(Event.IniDCSUnitName)
        if DCSAirbase then
          -- Add airbase if it was spawned later in the mission.
          self:I(string.format("Adding airbase %s", tostring(Event.IniDCSUnitName)))
          self:AddAirbase(Event.IniDCSUnitName)
        end
@@ -1052,7 +1153,7 @@ function DATABASE:_EventOnBirth( Event )
      end
    end
-    if Event.IniObjectCategory == 1 then
+    if Event.IniObjectCategory == Object.Category.UNIT then
      Event.IniUnit = self:FindUnit( Event.IniDCSUnitName )
      Event.IniGroup = self:FindGroup( Event.IniDCSGroupName )
@@ -1100,6 +1201,7 @@ function DATABASE:_EventOnBirth( Event )
 end
 --- Handles the OnDead or OnCrash event for alive units set.
 -- @param #DATABASE self
 -- @param Core.Event#EVENTDATA Event
@@ -1119,6 +1221,22 @@ function DATABASE:_EventOnDeadOrCrash( Event )
        self:DeleteStatic( Event.IniDCSUnitName )
      end
      ---
      -- Maybe a UNIT?
      ---
      -- Delete unit.
      if self.UNITS[Event.IniDCSUnitName] then
        self:T("STATIC Event for UNIT "..tostring(Event.IniDCSUnitName))
        local DCSUnit = _DATABASE:FindUnit( Event.IniDCSUnitName )
        self:T({DCSUnit})
        if DCSUnit then
          --self:I("Creating DEAD Event for UNIT "..tostring(Event.IniDCSUnitName))
          --DCSUnit:Destroy(true)
          return
        end
      end
    else
      if Event.IniObjectCategory == 1 then
@@ -1154,6 +1272,7 @@ function DATABASE:_EventOnDeadOrCrash( Event )
  self:AccountDestroys( Event )
 end
 --- Handles the OnPlayerEnterUnit event to fill the active players table (with the unit filter applied).
 -- @param #DATABASE self
 -- @param Core.Event#EVENTDATA Event
@@ -1191,6 +1310,7 @@ function DATABASE:_EventOnPlayerEnterUnit( Event )
  end
 end
 --- Handles the OnPlayerLeaveUnit event to clean the active players table.
 -- @param #DATABASE self
 -- @param Core.Event#EVENTDATA Event
@@ -1276,6 +1396,7 @@ function DATABASE:ForEach( IteratorFunction, FinalizeFunction, arg, Set )
  return self
 end
 --- Iterate the DATABASE and call an iterator function for each **alive** STATIC, providing the STATIC and optional parameters.
 -- @param #DATABASE self
 -- @param #function IteratorFunction The function that will be called for each object in the database. The function needs to accept a STATIC parameter.
@@ -1288,6 +1409,7 @@ function DATABASE:ForEachStatic( IteratorFunction, FinalizeFunction, ... ) -- R2
  return self
 end
 --- Iterate the DATABASE and call an iterator function for each **alive** UNIT, providing the UNIT and optional parameters.
 -- @param #DATABASE self
 -- @param #function IteratorFunction The function that will be called for each object in the database. The function needs to accept a UNIT parameter.
@@ -1300,6 +1422,7 @@ function DATABASE:ForEachUnit( IteratorFunction, FinalizeFunction, ... )
  return self
 end
 --- Iterate the DATABASE and call an iterator function for each **alive** GROUP, providing the GROUP and optional parameters.
 -- @param #DATABASE self
 -- @param #function IteratorFunction The function that will be called for each object in the database. The function needs to accept a GROUP parameter.
@@ -1312,6 +1435,7 @@ function DATABASE:ForEachGroup( IteratorFunction, FinalizeFunction, ... )
  return self
 end
 --- Iterate the DATABASE and call an iterator function for each **ALIVE** player, providing the player name and optional parameters.
 -- @param #DATABASE self
 -- @param #function IteratorFunction The function that will be called for each object in the database. The function needs to accept the player name.
@@ -1324,6 +1448,7 @@ function DATABASE:ForEachPlayer( IteratorFunction, FinalizeFunction, ... )
  return self
 end
 --- Iterate the DATABASE and call an iterator function for each player who has joined the mission, providing the Unit of the player and optional parameters.
 -- @param #DATABASE self
 -- @param #function IteratorFunction The function that will be called for each object in the database. The function needs to accept a UNIT parameter.
@@ -1348,6 +1473,7 @@ function DATABASE:ForEachPlayerUnit( IteratorFunction, FinalizeFunction, ... )
  return self
 end
 --- Iterate the DATABASE and call an iterator function for each CLIENT, providing the CLIENT to the function and optional parameters.
 -- @param #DATABASE self
 -- @param #function IteratorFunction The function that will be called object in the database. The function needs to accept a CLIENT parameter.
@@ -1372,6 +1498,7 @@ function DATABASE:ForEachCargo( IteratorFunction, ... )
  return self
 end
 --- Handles the OnEventNewCargo event.
 -- @param #DATABASE self
 -- @param Core.Event#EVENTDATA EventData
@@ -1383,6 +1510,7 @@ function DATABASE:OnEventNewCargo( EventData )
  end
 end
 --- Handles the OnEventDeleteCargo.
 -- @param #DATABASE self
 -- @param Core.Event#EVENTDATA EventData
@@ -1394,6 +1522,7 @@ function DATABASE:OnEventDeleteCargo( EventData )
  end
 end
 --- Handles the OnEventNewZone event.
 -- @param #DATABASE self
 -- @param Core.Event#EVENTDATA EventData
@@ -1405,6 +1534,7 @@ function DATABASE:OnEventNewZone( EventData )
  end
 end
 --- Handles the OnEventDeleteZone.
 -- @param #DATABASE self
 -- @param Core.Event#EVENTDATA EventData
@@ -1416,6 +1546,8 @@ function DATABASE:OnEventDeleteZone( EventData )
  end
 end
 --- Gets the player settings
 -- @param #DATABASE self
 -- @param #string PlayerName
@@ -1425,6 +1557,7 @@ function DATABASE:GetPlayerSettings( PlayerName )
  return self.PLAYERSETTINGS[PlayerName]
 end
 --- Sets the player settings
 -- @param #DATABASE self
 -- @param #string PlayerName
@@ -1435,19 +1568,19 @@ function DATABASE:SetPlayerSettings( PlayerName, Settings )
  self.PLAYERSETTINGS[PlayerName] = Settings
 end
--- Add a flight group to the data base.
+--- Add an OPS group (FLIGHTGROUP, ARMYGROUP, NAVYGROUP) to the data base.
 -- @param #DATABASE self
-- @param Ops.FlightGroup#FLIGHTGROUP flightgroup
+-- @param Ops.OpsGroup#OPSGROUP opsgroup The OPS group added to the DB.
-function DATABASE:AddFlightGroup( flightgroup )
+function DATABASE:AddOpsGroup(opsgroup)
-  self:I( { NewFlightGroup = flightgroup.groupname } )
+  --env.info("Adding OPSGROUP "..tostring(opsgroup.groupname))
-  self.FLIGHTGROUPS[flightgroup.groupname] = flightgroup
+  self.FLIGHTGROUPS[opsgroup.groupname]=opsgroup
 end
--- Get a flight group from the data base.
+--- Get an OPS group (FLIGHTGROUP, ARMYGROUP, NAVYGROUP) from the data base.
 -- @param #DATABASE self
-- @param #string groupname Group name of the flight group. Can also be passed as GROUP object.
+-- @param #string groupname Group name of the group. Can also be passed as GROUP object.
-- @return Ops.FlightGroup#FLIGHTGROUP Flight group object.
+-- @return Ops.OpsGroup#OPSGROUP OPS group object.
-function DATABASE:GetFlightGroup( groupname )
+function DATABASE:GetOpsGroup(groupname)
  -- Get group and group name.
  if type(groupname)=="string" then
@@ -1455,9 +1588,53 @@ function DATABASE:GetFlightGroup( groupname )
    groupname=groupname:GetName()
  end
  --env.info("Getting OPSGROUP "..tostring(groupname))
  return self.FLIGHTGROUPS[groupname]
 end
 --- Find an OPSGROUP (FLIGHTGROUP, ARMYGROUP, NAVYGROUP) in the data base.
 -- @param #DATABASE self
 -- @param #string groupname Group name of the group. Can also be passed as GROUP object.
 -- @return Ops.OpsGroup#OPSGROUP OPS group object.
 function DATABASE:FindOpsGroup(groupname)
  -- Get group and group name.
  if type(groupname)=="string" then
  else
    groupname=groupname:GetName()
  end
  --env.info("Getting OPSGROUP "..tostring(groupname))
  return self.FLIGHTGROUPS[groupname]
 end
 --- Find an OPSGROUP (FLIGHTGROUP, ARMYGROUP, NAVYGROUP) in the data base for a given unit.
 -- @param #DATABASE self
 -- @param #string unitname Unit name. Can also be passed as UNIT object.
 -- @return Ops.OpsGroup#OPSGROUP OPS group object.
 function DATABASE:FindOpsGroupFromUnit(unitname)
  local unit=nil --Wrapper.Unit#UNIT
  local groupname
  -- Get group and group name.
  if type(unitname)=="string" then
    unit=UNIT:FindByName(unitname)
  else
    unit=unitname
  end
  if unit then
    groupname=unit:GetGroup():GetName()
  end
  if groupname then
    return self.FLIGHTGROUPS[groupname]
  else
    return nil
  end
 end
 --- Add a flight control to the data base.
 -- @param #DATABASE self
 -- @param Ops.FlightControl#FLIGHTCONTROL flightcontrol
--- a/Development/Moose/Core/Event.lua
+++ b/Development/Moose/Core/Event.lua
@@ -35,7 +35,7 @@
 -- There are 5 types/levels of objects that the _EVENTDISPATCHER services:
 --
 --  * _DATABASE object: The core of the MOOSE objects. Any object that is created, deleted or updated, is done in this database.
--  * SET_ derived classes: These are subsets of the _DATABASE object. These subsets are updated by the _EVENTDISPATCHER as the second priority.
+--  * SET_ derived classes: These are subsets of the global _DATABASE object (an instance of @{Core.Database#DATABASE}). These subsets are updated by the _EVENTDISPATCHER as the second priority.
 --  * UNIT objects: UNIT objects can subscribe to DCS events. Each DCS event will be directly published to the subscribed UNIT object.
 --  * GROUP objects: GROUP objects can subscribe to DCS events. Each DCS event will be directly published to the subscribed GROUP object.
 --  * Any other object: Various other objects can subscribe to DCS events. Each DCS event triggered will be published to each subscribed object.
@@ -52,7 +52,7 @@
 --
 -- ![Objects](..\Presentations\EVENT\Dia8.JPG)
 --
-- The actual event subscribing and handling is not facilitated through the _EVENTDISPATCHER, but it is done through the @{BASE} class, @{UNIT} class and @{GROUP} class.
+-- The actual event subscribing and handling is not facilitated through the _EVENTDISPATCHER, but it is done through the @{Core.Base#BASE} class, @{Wrapper.Unit#UNIT} class and @{Wrapper.Group#GROUP} class.
 -- The _EVENTDISPATCHER is a component that is quietly working in the background of MOOSE.
 --
 -- ![Objects](..\Presentations\EVENT\Dia9.JPG)
@@ -248,6 +248,18 @@ EVENTS = {
  TriggerZone               = world.event.S_EVENT_TRIGGER_ZONE or -1,
  LandingQualityMark        = world.event.S_EVENT_LANDING_QUALITY_MARK or -1,
  BDA                       = world.event.S_EVENT_BDA or -1,
  -- Added with DCS 2.8.0
  AIAbortMission            = world.event.S_EVENT_AI_ABORT_MISSION or -1,
  DayNight                  = world.event.S_EVENT_DAYNIGHT or -1,
  FlightTime                = world.event.S_EVENT_FLIGHT_TIME or -1,
  SelfKillPilot             = world.event.S_EVENT_PLAYER_SELF_KILL_PILOT or -1,
  PlayerCaptureAirfield     = world.event.S_EVENT_PLAYER_CAPTURE_AIRFIELD or -1, 
  EmergencyLanding          = world.event.S_EVENT_EMERGENCY_LANDING or -1,
  UnitCreateTask            = world.event.S_EVENT_UNIT_CREATE_TASK or -1,
  UnitDeleteTask            = world.event.S_EVENT_UNIT_DELETE_TASK or -1,
  SimulationStart           = world.event.S_EVENT_SIMULATION_START or -1,
  WeaponRearm               = world.event.S_EVENT_WEAPON_REARM or -1,
  WeaponDrop                = world.event.S_EVENT_WEAPON_DROP or -1,
 }
 --- The Event structure
@@ -560,9 +572,69 @@ local _EVENTMETA = {
     Event = "OnEventBDA",
     Text = "S_EVENT_BDA"
   },
   -- Added with DCS 2.8
   [EVENTS.AIAbortMission] = {
     Order = 1,
     Side = "I",
     Event = "OnEventAIAbortMission",
     Text = "S_EVENT_AI_ABORT_MISSION"
   },
   [EVENTS.DayNight] = {
     Order = 1,
     Event = "OnEventDayNight",
     Text = "S_EVENT_DAYNIGHT"
   },
   [EVENTS.FlightTime] = {
     Order = 1,
     Event = "OnEventFlightTime",
     Text = "S_EVENT_FLIGHT_TIME"
   },
   [EVENTS.SelfKillPilot] = {
     Order = 1,
     Side = "I",
     Event = "OnEventSelfKillPilot",
     Text = "S_EVENT_PLAYER_SELF_KILL_PILOT"
   },
   [EVENTS.PlayerCaptureAirfield] = {
     Order = 1,
     Event = "OnEventPlayerCaptureAirfield",
     Text = "S_EVENT_PLAYER_CAPTURE_AIRFIELD"
   },
   [EVENTS.EmergencyLanding] = {
     Order = 1,
     Side = "I",
     Event = "OnEventEmergencyLanding",
     Text = "S_EVENT_EMERGENCY_LANDING"
   },
   [EVENTS.UnitCreateTask] = {
     Order = 1,
     Event = "OnEventUnitCreateTask",
     Text = "S_EVENT_UNIT_CREATE_TASK"
   },
   [EVENTS.UnitDeleteTask] = {
     Order = 1,
     Event = "OnEventUnitDeleteTask",
     Text = "S_EVENT_UNIT_DELETE_TASK"
   },
   [EVENTS.SimulationStart] = {
     Order = 1,
     Event = "OnEventSimulationStart",
     Text = "S_EVENT_SIMULATION_START"
   },
   [EVENTS.WeaponRearm] = {
     Order = 1,
     Side = "I",
     Event = "OnEventWeaponRearm",
     Text = "S_EVENT_WEAPON_REARM"
   },
   [EVENTS.WeaponDrop] = {
     Order = 1,
     Side = "I",
     Event = "OnEventWeaponDrop",
     Text = "S_EVENT_WEAPON_DROP"
   },
 }
 --- The Events structure
 -- @type EVENT.Events
 -- @field #number IniUnit
@@ -932,7 +1004,7 @@ do -- Event Creation
  --- Creation of a ZoneGoal Deletion Event.
  -- @param #EVENT self
-  -- @param Core.ZoneGoal#ZONE_GOAL ZoneGoal The ZoneGoal created.
+  -- @param Functional.ZoneGoal#ZONE_GOAL ZoneGoal The ZoneGoal created.
  function EVENT:CreateEventDeleteZoneGoal( ZoneGoal )
    self:F( { ZoneGoal } )
@@ -1094,7 +1166,6 @@ function EVENT:onEvent( Event )
          ---
          -- Scenery
          ---          
          Event.IniDCSUnit = Event.initiator
          Event.IniDCSUnitName = Event.IniDCSUnit:getName()
          Event.IniUnitName = Event.IniDCSUnitName
@@ -1114,6 +1185,12 @@ function EVENT:onEvent( Event )
          Event.IniCoalition = Event.IniDCSUnit:getCoalition()
          Event.IniCategory = Event.IniDCSUnit:getDesc().category
          Event.IniTypeName = Event.IniDCSUnit:getTypeName()
          -- If the airbase does not exist in the DB, we add it (e.g. when FARPS are spawned).
          if not Event.IniUnit then
            _DATABASE:_RegisterAirbase(Event.initiator)
            Event.IniUnit = AIRBASE:FindByName(Event.IniDCSUnitName)
          end
        end
      end
@@ -1147,7 +1224,7 @@ function EVENT:onEvent( Event )
        if Event.TgtObjectCategory == Object.Category.STATIC then
          -- get base data
          Event.TgtDCSUnit = Event.target
-          if Event.target:isExist() and Event.id ~= 33 then -- leave out ejected seat object
+          if Event.target:isExist() and Event.id ~= 33 and not Event.TgtObjectCategory == Object.Category.COORDINATE then -- leave out ejected seat object
            Event.TgtDCSUnitName = Event.TgtDCSUnit:getName()
            Event.TgtUnitName = Event.TgtDCSUnitName
            Event.TgtUnit = STATIC:FindByName( Event.TgtDCSUnitName, false )
@@ -1204,10 +1281,12 @@ function EVENT:onEvent( Event )
          -- However, this is not a big thing, as the aircraft the pilot ejected from is usually long crashed before the ejected pilot touches the ground.
          --Event.Place=UNIT:Find(Event.place)
        else  
          if Event.place:isExist() and Event.place:getCategory() ~= Object.Category.SCENERY then
            Event.Place=AIRBASE:Find(Event.place)
            Event.PlaceName=Event.Place:GetName()
          end
        end
      end
      --  Mark points.
      if Event.idx then
--- a/Development/Moose/Core/Fsm.lua
+++ b/Development/Moose/Core/Fsm.lua
@@ -47,9 +47,9 @@
 -- and tailored** by mission designers through **the implementation of Transition Handlers**.
 -- Each of these FSM implementation classes start either with:
 --
--   * an acronym **AI\_**, which indicates a FSM implementation directing **AI controlled** @{GROUP} and/or @{UNIT}. These AI\_ classes derive the @{#FSM_CONTROLLABLE} class.
+--   * an acronym **AI\_**, which indicates a FSM implementation directing **AI controlled** @{Wrapper.Group#GROUP} and/or @{Wrapper.Unit#UNIT}. These AI\_ classes derive the @{#FSM_CONTROLLABLE} class.
--   * an acronym **TASK\_**, which indicates a FSM implementation executing a @{TASK} executed by Groups of players. These TASK\_ classes derive the @{#FSM_TASK} class.
+--   * an acronym **TASK\_**, which indicates a FSM implementation executing a @{Tasking.Task#TASK} executed by Groups of players. These TASK\_ classes derive the @{#FSM_TASK} class.
--   * an acronym **ACT\_**, which indicates an Sub-FSM implementation, directing **Humans actions** that need to be done in a @{TASK}, seated in a @{CLIENT} (slot) or a @{UNIT} (CA join). These ACT\_ classes derive the @{#FSM_PROCESS} class.
+--   * an acronym **ACT\_**, which indicates an Sub-FSM implementation, directing **Humans actions** that need to be done in a @{Tasking.Task#TASK}, seated in a @{Wrapper.Client#CLIENT} (slot) or a @{Wrapper.Unit#UNIT} (CA join). These ACT\_ classes derive the @{#FSM_PROCESS} class.
 --
 -- Detailed explanations and API specifics are further below clarified and FSM derived class specifics are described in those class documentation sections.
 --
@@ -61,10 +61,10 @@
 --
 -- The following derived classes are available in the MOOSE framework, that implement a specialized form of a FSM:
 --
--   * @{#FSM_TASK}: Models Finite State Machines for @{Task}s.
+--   * @{#FSM_TASK}: Models Finite State Machines for @{Tasking.Task}s.
--   * @{#FSM_PROCESS}: Models Finite State Machines for @{Task} actions, which control @{Client}s.
+--   * @{#FSM_PROCESS}: Models Finite State Machines for @{Tasking.Task} actions, which control @{Wrapper.Client}s.
--   * @{#FSM_CONTROLLABLE}: Models Finite State Machines for @{Wrapper.Controllable}s, which are @{Wrapper.Group}s, @{Wrapper.Unit}s, @{Client}s.
+--   * @{#FSM_CONTROLLABLE}: Models Finite State Machines for @{Wrapper.Controllable}s, which are @{Wrapper.Group}s, @{Wrapper.Unit}s, @{Wrapper.Client}s.
--   * @{#FSM_SET}: Models Finite State Machines for @{Set}s. Note that these FSMs control multiple objects!!! So State concerns here
+--   * @{#FSM_SET}: Models Finite State Machines for @{Core.Set}s. Note that these FSMs control multiple objects!!! So State concerns here
 --     for multiple objects or the position of the state machine in the process.
 --
 -- ===
@@ -119,9 +119,9 @@ do -- FSM
  -- and tailored** by mission designers through **the implementation of Transition Handlers**.
  -- Each of these FSM implementation classes start either with:
  --
-  --   * an acronym **AI\_**, which indicates an FSM implementation directing **AI controlled** @{GROUP} and/or @{UNIT}. These AI\_ classes derive the @{#FSM_CONTROLLABLE} class.
+  --   * an acronym **AI\_**, which indicates an FSM implementation directing **AI controlled** @{Wrapper.Group#GROUP} and/or @{Wrapper.Unit#UNIT}. These AI\_ classes derive the @{#FSM_CONTROLLABLE} class.
-  --   * an acronym **TASK\_**, which indicates an FSM implementation executing a @{TASK} executed by Groups of players. These TASK\_ classes derive the @{#FSM_TASK} class.
+  --   * an acronym **TASK\_**, which indicates an FSM implementation executing a @{Tasking.Task#TASK} executed by Groups of players. These TASK\_ classes derive the @{#FSM_TASK} class.
-  --   * an acronym **ACT\_**, which indicates an Sub-FSM implementation, directing **Humans actions** that need to be done in a @{TASK}, seated in a @{CLIENT} (slot) or a @{UNIT} (CA join). These ACT\_ classes derive the @{#FSM_PROCESS} class.
+  --   * an acronym **ACT\_**, which indicates an Sub-FSM implementation, directing **Humans actions** that need to be done in a @{Tasking.Task#TASK}, seated in a @{Wrapper.Client#CLIENT} (slot) or a @{Wrapper.Unit#UNIT} (CA join). These ACT\_ classes derive the @{#FSM_PROCESS} class.
  --
  -- ![Transition Rules and Transition Handlers and Event Triggers](..\Presentations\FSM\Dia3.JPG)
  --
@@ -405,7 +405,7 @@ do -- FSM
    Transition.To = To
    -- Debug message.
-    self:T2( Transition )
+    --self:T3( Transition )
    self._Transitions[Transition] = Transition
    self:_eventmap( self.Events, Transition )
@@ -418,7 +418,7 @@ do -- FSM
    return self._Transitions or {}
  end
-  --- Set the default @{Process} template with key ProcessName providing the ProcessClass and the process object when it is assigned to a @{Wrapper.Controllable} by the task.
+  --- Set the default @{#FSM_PROCESS} template with key ProcessName providing the ProcessClass and the process object when it is assigned to a @{Wrapper.Controllable} by the task.
  -- @param #FSM self
  -- @param #table From Can contain a string indicating the From state or a table of strings containing multiple From states.
  -- @param #string Event The Event name.
@@ -426,7 +426,7 @@ do -- FSM
  -- @param #table ReturnEvents A table indicating for which returned events of the SubFSM which Event must be triggered in the FSM.
  -- @return Core.Fsm#FSM_PROCESS The SubFSM.
  function FSM:AddProcess( From, Event, Process, ReturnEvents )
-    self:T( { From, Event } )
+    --self:T3( { From, Event } )
    local Sub = {}
    Sub.From = From
@@ -525,7 +525,7 @@ do -- FSM
    Process._Scores[State].ScoreText = ScoreText
    Process._Scores[State].Score = Score
-    self:T( Process._Scores )
+    --self:T3( Process._Scores )
    return Process
  end
@@ -568,7 +568,7 @@ do -- FSM
      self[__Event] = self[__Event] or self:_delayed_transition(Event)
      -- Debug message.
-    self:T2( "Added methods: " .. Event .. ", " .. __Event )
+      --self:T3( "Added methods: " .. Event .. ", " .. __Event )
      Events[Event] = self.Events[Event] or { map = {} }
      self:_add_to_map( Events[Event].map, EventStructure )
@@ -784,7 +784,7 @@ do -- FSM
    return function( self, DelaySeconds, ... )
      -- Debug.
-      self:T2( "Delayed Event: " .. EventName )
+      self:T3( "Delayed Event: " .. EventName )
      local CallID = 0
      if DelaySeconds ~= nil then
@@ -802,23 +802,23 @@ do -- FSM
            self._EventSchedules[EventName] = CallID
            -- Debug output.
-            self:T2( string.format( "NEGATIVE Event %s delayed by %.1f sec SCHEDULED with CallID=%s", EventName, DelaySeconds, tostring( CallID ) ) )
+            self:T2(string.format("NEGATIVE Event %s delayed by %.3f sec SCHEDULED with CallID=%s", EventName, DelaySeconds, tostring(CallID)))
          else
-            self:T2( string.format( "NEGATIVE Event %s delayed by %.1f sec CANCELLED as we already have such an event in the queue.", EventName, DelaySeconds ) )
+            self:T2(string.format("NEGATIVE Event %s delayed by %.3f sec CANCELLED as we already have such an event in the queue.", EventName, DelaySeconds))
            -- reschedule
          end
        else
          CallID = self.CallScheduler:Schedule( self, self._handler, { EventName, ... }, DelaySeconds or 1, nil, nil, nil, 4, true )
-          self:T2( string.format( "Event %s delayed by %.1f sec SCHEDULED with CallID=%s", EventName, DelaySeconds, tostring( CallID ) ) )
+          self:T2(string.format("Event %s delayed by %.3f sec SCHEDULED with CallID=%s", EventName, DelaySeconds, tostring(CallID)))
        end
      else
        error( "FSM: An asynchronous event trigger requires a DelaySeconds parameter!!! This can be positive or negative! Sorry, but will not process this." )
      end
      -- Debug.
-      self:T2( { CallID = CallID } )
+      --self:T3( { CallID = CallID } )
    end
  end
@@ -841,7 +841,7 @@ do -- FSM
  function FSM:_gosub( ParentFrom, ParentEvent )
    local fsmtable = {}
    if self.subs[ParentFrom] and self.subs[ParentFrom][ParentEvent] then
-      self:T( { ParentFrom, ParentEvent, self.subs[ParentFrom], self.subs[ParentFrom][ParentEvent] } )
+      --self:T3( { ParentFrom, ParentEvent, self.subs[ParentFrom], self.subs[ParentFrom][ParentEvent] } )
      return self.subs[ParentFrom][ParentEvent]
    else
      return {}
@@ -888,7 +888,7 @@ do -- FSM
      end
    end
-    self:T3( { Map, Event } )
+    --self:T3( {  Map, Event } )
  end
  --- Get current state.
@@ -908,7 +908,7 @@ do -- FSM
  --- Check if FSM is in state.
  -- @param #FSM self
  -- @param #string State State name.
-  -- @param #boolean If true, FSM is in this state.
+  -- @return #boolean If true, FSM is in this state.
  function FSM:Is( State )
    return self.current == State
  end
@@ -916,7 +916,7 @@ do -- FSM
  --- Check if FSM is in state.
  -- @param #FSM self
  -- @param #string State State name.
-  -- @param #boolean If true, FSM is in this state.
+  -- @return #boolean If true, FSM is in this state.  
  function FSM:is(state)
    return self.current == state
  end
@@ -953,7 +953,7 @@ do -- FSM_CONTROLLABLE
  -- @field Wrapper.Controllable#CONTROLLABLE Controllable
  -- @extends Core.Fsm#FSM
-  --- Models Finite State Machines for @{Wrapper.Controllable}s, which are @{Wrapper.Group}s, @{Wrapper.Unit}s, @{Client}s.
+  --- Models Finite State Machines for @{Wrapper.Controllable}s, which are @{Wrapper.Group}s, @{Wrapper.Unit}s, @{Wrapper.Client}s.
  --
  -- ===
  --
@@ -1086,7 +1086,7 @@ do -- FSM_PROCESS
  -- @field Tasking.Task#TASK Task
  -- @extends Core.Fsm#FSM_CONTROLLABLE
-  --- FSM_PROCESS class models Finite State Machines for @{Task} actions, which control @{Client}s.
+  --- FSM_PROCESS class models Finite State Machines for @{Tasking.Task} actions, which control @{Wrapper.Client}s.
  -- 
  -- ===
  -- 
@@ -1146,7 +1146,7 @@ do -- FSM_PROCESS
  -- @param #FSM_PROCESS self
  -- @return #FSM_PROCESS
  function FSM_PROCESS:Copy( Controllable, Task )
-    self:T( { self:GetClassNameAndID() } )
+    --self:T3( { self:GetClassNameAndID() } )
    local NewFsm = self:New( Controllable, Task ) -- Core.Fsm#FSM_PROCESS
@@ -1171,13 +1171,13 @@ do -- FSM_PROCESS
    -- Copy End States
    for EndStateID, EndState in pairs( self:GetEndStates() ) do
-      self:T( EndState )
+      --self:T3( EndState )
      NewFsm:AddEndState( EndState )
    end
    -- Copy the score tables
    for ScoreID, Score in pairs( self:GetScores() ) do
-      self:T( Score )
+      --self:T3( Score )
      NewFsm:AddScore( ScoreID, Score.ScoreText, Score.Score )
    end
@@ -1241,7 +1241,7 @@ do -- FSM_PROCESS
  -- TODO: Need to check and fix that an FSM_PROCESS is only for a UNIT. Not for a GROUP.  
-  --- Send a message of the @{Task} to the Group of the Unit.
+  --- Send a message of the @{Tasking.Task} to the Group of the Unit.
  -- @param #FSM_PROCESS self
  function FSM_PROCESS:Message( Message )
    self:F( { Message = Message } )
@@ -1382,7 +1382,7 @@ do -- FSM_SET
  -- @field Core.Set#SET_BASE Set
  -- @extends Core.Fsm#FSM
-  --- FSM_SET class models Finite State Machines for @{Set}s. Note that these FSMs control multiple objects!!! So State concerns here
+  --- FSM_SET class models Finite State Machines for @{Core.Set}s. Note that these FSMs control multiple objects!!! So State concerns here
  -- for multiple objects or the position of the state machine in the process.
  --
  -- ===
@@ -1422,7 +1422,7 @@ do -- FSM_SET
  -- @param #FSM_SET self
  -- @return Core.Set#SET_BASE
  function FSM_SET:Get()
-    return self.Controllable
+    return self.Set
  end
  function FSM_SET:_call_handler( step, trigger, params, EventName )
--- a/Development/Moose/Core/MarkerOps_Base.lua
+++ b/Development/Moose/Core/MarkerOps_Base.lua
@@ -0,0 +1,273 @@
 --- **Core** - Tap into markers added to the F10 map by users.
 --
 -- **Main Features:**
 --
 --    * Create an easy way to tap into markers added to the F10 map by users.
 --    * Recognize own tag and list of keywords.
 --    * Matched keywords are handed down to functions.
 -- ##Listen for your tag
 --    myMarker = MARKEROPS_BASE:New("tag", {}, false)
 --    function myMarker:OnAfterMarkChanged(From, Event, To, Text, Keywords, Coord, idx)
 --
 --    end
 -- Make sure to use the "MarkChanged" event as "MarkAdded" comes in right after the user places a blank marker and your callback will never be called.
 --
 -- ===
 --
 -- ### Author: **Applevangelist**
 -- 
 -- Date: 5 May 2021
 -- Last Update: Sep 2022
 -- 
 -- ===
 ---
 -- @module Core.MarkerOps_Base
 -- @image MOOSE_Core.JPG
 --------------------------------------------------------------------------
 -- MARKEROPS_BASE Class Definition.
 --------------------------------------------------------------------------
 --- MARKEROPS_BASE class.
 -- @type MARKEROPS_BASE
 -- @field #string ClassName Name of the class.
 -- @field #string Tag Tag to identify commands.
 -- @field #table Keywords Table of keywords to recognize.
 -- @field #string version Version of #MARKEROPS_BASE.
 -- @field #boolean Casesensitive Enforce case when identifying the Tag, i.e. tag ~= Tag
 -- @extends Core.Fsm#FSM
 --- *Fiat lux.* -- Latin proverb.
 --
 -- ===
 --
 -- # The MARKEROPS_BASE Concept
 -- 
 -- This class enable scripting text-based actions from markers.
 -- 
 -- @field #MARKEROPS_BASE
 MARKEROPS_BASE = {
  ClassName = "MARKEROPS",
  Tag = "mytag",
  Keywords = {},
  version = "0.1.0",
  debug = false,
  Casesensitive = true,
 }
 --- Function to instantiate a new #MARKEROPS_BASE object.
 -- @param #MARKEROPS_BASE self
 -- @param #string Tagname Name to identify us from the event text.
 -- @param #table Keywords Table of keywords  recognized from the event text.
 -- @param #boolean Casesensitive (Optional) Switch case sensitive identification of Tagname. Defaults to true.
 -- @return #MARKEROPS_BASE self
 function MARKEROPS_BASE:New(Tagname,Keywords,Casesensitive)
   -- Inherit FSM
  local self=BASE:Inherit(self, FSM:New()) -- #MARKEROPS_BASE
    -- Set some string id for output to DCS.log file.
  self.lid=string.format("MARKEROPS_BASE %s | ", tostring(self.version))
  self.Tag = Tagname or "mytag"-- #string
  self.Keywords = Keywords or {} -- #table - might want to use lua regex here, too
  self.debug = false
  self.Casesensitive = true
  if Casesensitive and Casesensitive == false then
    self.Casesensitive = false
  end
  -----------------------
  --- FSM Transitions ---
  -----------------------
  -- Start State.
  self:SetStartState("Stopped")
  -- Add FSM transitions.
  --                 From State  -->   Event   -->   To State
  self:AddTransition("Stopped", "Start",        "Running")        -- Start the FSM.
  self:AddTransition("*",       "MarkAdded",    "*")        -- Start the FSM.
  self:AddTransition("*",       "MarkChanged",   "*")        -- Start the FSM.
  self:AddTransition("*",       "MarkDeleted",  "*")        -- Start the FSM.
  self:AddTransition("Running", "Stop",         "Stopped")        -- Stop the FSM.
  self:HandleEvent(EVENTS.MarkAdded, self.OnEventMark)
  self:HandleEvent(EVENTS.MarkChange, self.OnEventMark)
  self:HandleEvent(EVENTS.MarkRemoved, self.OnEventMark)
  -- start
  self:I(self.lid..string.format("started for %s",self.Tag))
  self:__Start(1)
  return self
  -------------------
  -- PSEUDO Functions
  -------------------
   --- On after "MarkAdded" event. Triggered when a Marker is added to the F10 map.
   -- @function [parent=#MARKEROPS_BASE] OnAfterMarkAdded
   -- @param #MARKEROPS_BASE self
   -- @param #string From The From state
   -- @param #string Event The Event called
   -- @param #string To The To state
   -- @param #string Text The text on the marker
   -- @param #table Keywords Table of matching keywords found in the Event text
   -- @param Core.Point#COORDINATE Coord Coordinate of the marker.
   --- On after "MarkChanged" event. Triggered when a Marker is changed on the F10 map.
   -- @function [parent=#MARKEROPS_BASE] OnAfterMarkChanged
   -- @param #MARKEROPS_BASE self
   -- @param #string From The From state
   -- @param #string Event The Event called
   -- @param #string To The To state
   -- @param #string Text The text on the marker
   -- @param #table Keywords Table of matching keywords found in the Event text
   -- @param Core.Point#COORDINATE Coord Coordinate of the marker.
   --- On after "MarkDeleted" event. Triggered when a Marker is deleted from the F10 map.
   -- @function [parent=#MARKEROPS_BASE] OnAfterMarkDeleted
   -- @param #MARKEROPS_BASE self
   -- @param #string From The From state
   -- @param #string Event The Event called
   -- @param #string To The To state
      --- "Stop" trigger. Used to stop the function an unhandle events
   -- @function [parent=#MARKEROPS_BASE] Stop
 end
 --- (internal) Handle events.
 -- @param #MARKEROPS_BASE self
 -- @param Core.Event#EVENTDATA Event
 function MARKEROPS_BASE:OnEventMark(Event)
  self:T({Event})
    if Event == nil or Event.idx == nil then
      self:E("Skipping onEvent. Event or Event.idx unknown.")
      return true
    end
    --position
    local vec3={y=Event.pos.y, x=Event.pos.x, z=Event.pos.z}
    local coord=COORDINATE:NewFromVec3(vec3)
    if self.debug then
      local coordtext = coord:ToStringLLDDM()
      local text = tostring(Event.text)
      local m = MESSAGE:New(string.format("Mark added at %s with text: %s",coordtext,text),10,"Info",false):ToAll()
    end
    -- decision
    if Event.id==world.event.S_EVENT_MARK_ADDED then
      self:T({event="S_EVENT_MARK_ADDED", carrier=self.groupname, vec3=Event.pos})
      -- Handle event
      local Eventtext = tostring(Event.text)
      if Eventtext~=nil then
        if self:_MatchTag(Eventtext) then
         local matchtable = self:_MatchKeywords(Eventtext)
         self:MarkAdded(Eventtext,matchtable,coord)
        end
      end
    elseif Event.id==world.event.S_EVENT_MARK_CHANGE then
      self:T({event="S_EVENT_MARK_CHANGE", carrier=self.groupname, vec3=Event.pos})
      -- Handle event.
      local Eventtext = tostring(Event.text)
      if Eventtext~=nil then
        if self:_MatchTag(Eventtext) then
         local matchtable = self:_MatchKeywords(Eventtext)
         self:MarkChanged(Eventtext,matchtable,coord)
        end
      end
    elseif Event.id==world.event.S_EVENT_MARK_REMOVED then
      self:T({event="S_EVENT_MARK_REMOVED", carrier=self.groupname, vec3=Event.pos})
      -- Hande event.
      local Eventtext = tostring(Event.text)
      if Eventtext~=nil then
        if self:_MatchTag(Eventtext) then
         self:MarkDeleted()
        end
      end
    end
 end
 --- (internal) Match tag.
 -- @param #MARKEROPS_BASE self
 -- @param #string Eventtext Text added to the marker.
 -- @return #boolean
 function MARKEROPS_BASE:_MatchTag(Eventtext)
  local matches = false
  if not self.Casesensitive then
    local type = string.lower(self.Tag) -- #string
    if string.find(string.lower(Eventtext),type) then
      matches = true --event text contains tag
    end
  else
    local type = self.Tag -- #string
    if string.find(Eventtext,type) then
      matches = true --event text contains tag
    end
  end
  return matches
 end
 --- (internal) Match keywords table.
 -- @param #MARKEROPS_BASE self
 -- @param #string Eventtext Text added to the marker.
 -- @return #table
 function MARKEROPS_BASE:_MatchKeywords(Eventtext)
  local matchtable = {}
  local keytable = self.Keywords
  for _index,_word in pairs (keytable) do
    if string.find(string.lower(Eventtext),string.lower(_word))then
      table.insert(matchtable,_word)
    end
  end
  return matchtable
 end
 --- On before "MarkAdded" event. Triggered when a Marker is added to the F10 map.
 -- @param #MARKEROPS_BASE self
 -- @param #string From The From state
 -- @param #string Event The Event called
 -- @param #string To The To state
 -- @param #string Text The text on the marker
 -- @param #table Keywords Table of matching keywords found in the Event text
 -- @param Core.Point#COORDINATE Coord Coordinate of the marker.
 function MARKEROPS_BASE:onbeforeMarkAdded(From,Event,To,Text,Keywords,Coord)
  self:T({self.lid,From,Event,To,Text,Keywords,Coord:ToStringLLDDM()})
 end
 --- On before "MarkChanged" event. Triggered when a Marker is changed on the F10 map.
 -- @param #MARKEROPS_BASE self
 -- @param #string From The From state
 -- @param #string Event The Event called
 -- @param #string To The To state
 -- @param #string Text The text on the marker
 -- @param #table Keywords Table of matching keywords found in the Event text
 -- @param Core.Point#COORDINATE Coord Coordinate of the marker.
 function MARKEROPS_BASE:onbeforeMarkChanged(From,Event,To,Text,Keywords,Coord)
  self:T({self.lid,From,Event,To,Text,Keywords,Coord:ToStringLLDDM()})
 end
 --- On before "MarkDeleted" event. Triggered when a Marker is removed from the F10 map.
 -- @param #MARKEROPS_BASE self
 -- @param #string From The From state
 -- @param #string Event The Event called
 -- @param #string To The To state
 function MARKEROPS_BASE:onbeforeMarkDeleted(From,Event,To)
  self:T({self.lid,From,Event,To})
 end
 --- On enter "Stopped" event. Unsubscribe events.
 -- @param #MARKEROPS_BASE self
 -- @param #string From The From state
 -- @param #string Event The Event called
 -- @param #string To The To state
 function MARKEROPS_BASE:onenterStopped(From,Event,To)
  self:T({self.lid,From,Event,To})
  -- unsubscribe from events
  self:UnHandleEvent(EVENTS.MarkAdded)
  self:UnHandleEvent(EVENTS.MarkChange)
  self:UnHandleEvent(EVENTS.MarkRemoved)
 end
 --------------------------------------------------------------------------
 -- MARKEROPS_BASE Class Definition End.
 --------------------------------------------------------------------------
--- a/Development/Moose/Core/Menu.lua
+++ b/Development/Moose/Core/Menu.lua
@@ -239,6 +239,7 @@ do -- MENU_BASE
  function MENU_BASE:GetMenu( MenuText )
    return self.Menus[MenuText]
  end
  --- Sets a menu stamp for later prevention of menu removal.
  -- @param #MENU_BASE self
  -- @param MenuStamp
@@ -376,6 +377,7 @@ do -- MENU_MISSION
    end
  end
  --- Refreshes a radio item for a mission
  -- @param #MENU_MISSION self
  -- @return #MENU_MISSION
@@ -813,6 +815,7 @@ do
    end
  end
  --- Refreshes a new radio item for a group and submenus
  -- @param #MENU_GROUP self
  -- @return #MENU_GROUP
@@ -829,6 +832,29 @@ do
    return self
  end
  --- Refreshes a new radio item for a group and submenus, ordering by (numerical) MenuTag
  -- @param #MENU_GROUP self
  -- @return #MENU_GROUP
  function MENU_GROUP:RefreshAndOrderByTag()
    do
      missionCommands.removeItemForGroup( self.GroupID, self.MenuPath )
      missionCommands.addSubMenuForGroup( self.GroupID, self.MenuText, self.MenuParentPath )
      local MenuTable = {}
      for MenuText, Menu in pairs( self.Menus or {} ) do
        local tag = Menu.MenuTag or math.random(1,10000)
        MenuTable[#MenuTable+1] = {Tag=tag, Enty=Menu}
      end
      table.sort(MenuTable, function (k1, k2) return k1.tag < k2.tag end )
      for _, Menu in pairs( MenuTable ) do
        Menu.Entry:Refresh()
      end 
    end
    return self
  end
  --- Removes the sub menus recursively of this MENU_GROUP.
  -- @param #MENU_GROUP self
  -- @param MenuStamp
@@ -1180,4 +1206,3 @@ do
    return self
  end
 end
--- a/Development/Moose/Core/Message.lua
+++ b/Development/Moose/Core/Message.lua
@@ -12,7 +12,6 @@
 --   * Send messages to a specific group.
 --   * Send messages to a specific unit or client.
 -- 
 --
 -- ===
 --
 -- @module Core.Message
@@ -35,7 +34,7 @@
 --
 -- Messages are sent:
 --
--   * To a @{Client} using @{#MESSAGE.ToClient}().
+--   * To a @{Wrapper.Client} using @{#MESSAGE.ToClient}().
 --   * To a @{Wrapper.Group} using @{#MESSAGE.ToGroup}()
 --   * To a @{Wrapper.Unit} using @{#MESSAGE.ToUnit}()
 --   * To a coalition using @{#MESSAGE.ToCoalition}().
@@ -129,7 +128,7 @@ end
 --- Creates a new MESSAGE object of a certain type.
 -- Note that these MESSAGE objects are not yet displayed on the display panel.
 -- You must use the functions @{ToClient} or @{ToCoalition} or @{ToAll} to send these Messages to the respective recipients.
-- The message display times are automatically defined based on the timing settings in the @{Settings} menu.
+-- The message display times are automatically defined based on the timing settings in the @{Core.Settings} menu.
 -- @param self
 -- @param #string MessageText is the text of the Message.
 -- @param #MESSAGE.Type MessageType The type of the message.
@@ -172,7 +171,7 @@ end
 --- Sends a MESSAGE to a Client Group. Note that the Group needs to be defined within the ME with the skillset "Client" or "Player".
 -- @param #MESSAGE self
 -- @param Wrapper.Client#CLIENT Client is the Group of the Client.
-- @param Core.Settings#SETTINGS Settings Settings used to display the message.
+-- @param Core.Settings#SETTINGS Settings used to display the message.
 -- @return #MESSAGE
 -- @usage
 --
@@ -183,11 +182,11 @@ end
 --   MessageClient1 = MESSAGE:New( "Congratulations, you've just hit a target", "Score", 25, "Score" ):ToClient( ClientGroup )
 --   MessageClient2 = MESSAGE:New( "Congratulations, you've just killed a target", "Score", 25, "Score" ):ToClient( ClientGroup )
 --   or
--   MESSAGE:New( "Congratulations, you've just hit a target", "Score", 25, "Score" ):ToClient( ClientGroup )
+--   MESSAGE:New( "Congratulations, you've just hit a target", "Score", 25 ):ToClient( ClientGroup )
--   MESSAGE:New( "Congratulations, you've just killed a target", "Score", 25, "Score" ):ToClient( ClientGroup )
+--   MESSAGE:New( "Congratulations, you've just killed a target", "Score", 25 ):ToClient( ClientGroup )
 --   or
--   MessageClient1 = MESSAGE:New( "Congratulations, you've just hit a target", "Score", 25, "Score" )
+--   MessageClient1 = MESSAGE:New( "Congratulations, you've just hit a target", "Score", 25 )
--   MessageClient2 = MESSAGE:New( "Congratulations, you've just killed a target", "Score", 25, "Score" )
+--   MessageClient2 = MESSAGE:New( "Congratulations, you've just killed a target", "Score", 25 )
 --   MessageClient1:ToClient( ClientGroup )
 --   MessageClient2:ToClient( ClientGroup )
 --
@@ -218,6 +217,7 @@ end
 --- Sends a MESSAGE to a Group.
 -- @param #MESSAGE self
 -- @param Wrapper.Group#GROUP Group to which the message is displayed.
 -- @param Core.Settings#Settings Settings (Optional) Settings for message display.
 -- @return #MESSAGE Message object.
 function MESSAGE:ToGroup( Group, Settings )
  self:F( Group.GroupName )
@@ -242,6 +242,7 @@ end
 --- Sends a MESSAGE to a Unit. 
 -- @param #MESSAGE self
 -- @param Wrapper.Unit#UNIT Unit to which the message is displayed.
 -- @param Core.Settings#Settings Settings (Optional) Settings for message display.
 -- @return #MESSAGE Message object.
 function MESSAGE:ToUnit( Unit, Settings )
  self:F( Unit.IdentifiableName )
@@ -263,17 +264,52 @@ function MESSAGE:ToUnit( Unit, Settings )
  return self
 end
 --- Sends a MESSAGE to a Country. 
 -- @param #MESSAGE self
 -- @param #number Country to which the message is displayed, e.g. country.id.GERMANY. For all country numbers see here: [Hoggit Wiki](https://wiki.hoggitworld.com/view/DCS_enum_country)
 -- @param Core.Settings#Settings Settings (Optional) Settings for message display.
 -- @return #MESSAGE Message object.
 function MESSAGE:ToCountry( Country, Settings )
  self:F(Country )
  if Country then   
    if self.MessageType then
      local Settings = Settings or _SETTINGS -- Core.Settings#SETTINGS
      self.MessageDuration = Settings:GetMessageTime( self.MessageType )
      self.MessageCategory = "" -- self.MessageType .. ": "
    end
    if self.MessageDuration ~= 0 then
      self:T( self.MessageCategory .. self.MessageText:gsub("\n$",""):gsub("\n$","") .. " / " .. self.MessageDuration )
      trigger.action.outTextForCountry( Country, self.MessageCategory .. self.MessageText:gsub("\n$",""):gsub("\n$",""), self.MessageDuration, self.ClearScreen )
    end
  end  
  return self
 end
 --- Sends a MESSAGE to a Country. 
 -- @param #MESSAGE self
 -- @param #number Country to which the message is displayed, , e.g. country.id.GERMANY. For all country numbers see here: [Hoggit Wiki](https://wiki.hoggitworld.com/view/DCS_enum_country)
 -- @param #boolean Condition Sends the message only if the condition is true.
 -- @param Core.Settings#Settings Settings (Optional) Settings for message display.
 -- @return #MESSAGE Message object.
 function MESSAGE:ToCountryIf( Country, Condition, Settings )
  self:F(Country )
  if Country and Condition == true then
    self:ToCountry( Country, Settings )
  end
  return self
 end
 --- Sends a MESSAGE to the Blue coalition.
 -- @param #MESSAGE self
 -- @return #MESSAGE
 -- @usage
 --
 --   -- Send a message created with the @{New} method to the BLUE coalition.
--   MessageBLUE = MESSAGE:New( "To the BLUE Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToBlue()
+--   MessageBLUE = MESSAGE:New( "To the BLUE Players: You receive a penalty because you've killed one of your own units", "Penalty", 25):ToBlue()
 --   or
--   MESSAGE:New( "To the BLUE Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToBlue()
+--   MESSAGE:New( "To the BLUE Players: You receive a penalty because you've killed one of your own units", "Penalty", 25 ):ToBlue()
 --   or
--   MessageBLUE = MESSAGE:New( "To the BLUE Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" )
+--   MessageBLUE = MESSAGE:New( "To the BLUE Players: You receive a penalty because you've killed one of your own units", "Penalty", 25 )
 --   MessageBLUE:ToBlue()
 --
 function MESSAGE:ToBlue()
@@ -290,11 +326,11 @@ end
 -- @usage
 --
 --   -- Send a message created with the @{New} method to the RED coalition.
--   MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToRed()
+--   MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25 ):ToRed()
 --   or
--   MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToRed()
+--   MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25 ):ToRed()
 --   or
--   MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" )
+--   MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25 )
 --   MessageRED:ToRed()
 --
 function MESSAGE:ToRed()
@@ -313,11 +349,11 @@ end
 -- @usage
 --
 --   -- Send a message created with the @{New} method to the RED coalition.
--   MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToCoalition( coalition.side.RED )
+--   MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25 ):ToCoalition( coalition.side.RED )
 --   or
--   MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToCoalition( coalition.side.RED )
+--   MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25 ):ToCoalition( coalition.side.RED )
 --   or
--   MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" )
+--   MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25 )
 --   MessageRED:ToCoalition( coalition.side.RED )
 --
 function MESSAGE:ToCoalition( CoalitionSide, Settings )
@@ -361,11 +397,11 @@ end
 -- @usage
 --
 --   -- Send a message created to all players.
--   MessageAll = MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", "End of Mission", 25, "Win" ):ToAll()
+--   MessageAll = MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", "End of Mission", 25 ):ToAll()
 --   or
--   MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", "End of Mission", 25, "Win" ):ToAll()
+--   MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", "End of Mission", 25 ):ToAll()
 --   or
--   MessageAll = MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", "End of Mission", 25, "Win" )
+--   MessageAll = MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", "End of Mission", 25 )
 --   MessageAll:ToAll()
 --
 function MESSAGE:ToAll( Settings )
@@ -387,6 +423,7 @@ end
 --- Sends a MESSAGE to all players if the given Condition is true.
 -- @param #MESSAGE self
 -- @param #boolean Condition
 -- @return #MESSAGE
 function MESSAGE:ToAllIf( Condition )
@@ -396,3 +433,24 @@ function MESSAGE:ToAllIf( Condition )
  return self
 end
 --- Sends a MESSAGE to DCS log file.
 -- @param #MESSAGE self
 -- @return #MESSAGE self
 function MESSAGE:ToLog()
  env.info(self.MessageCategory .. self.MessageText:gsub( "\n$", "" ):gsub( "\n$", "" ))
  return self
 end
 --- Sends a MESSAGE to DCS log file if the given Condition is true.
 -- @param #MESSAGE self
 -- @return #MESSAGE self
 function MESSAGE:ToLogIf( Condition )
  if Condition and Condition == true then
    env.info(self.MessageCategory .. self.MessageText:gsub( "\n$", "" ):gsub( "\n$", "" ))
  end
  return self
 end
--- a/Development/Moose/Core/Point.lua
+++ b/Development/Moose/Core/Point.lua
@@ -138,7 +138,7 @@ do -- COORDINATE
  --
  -- Calculate if the coordinate has Line of Sight (LOS) with the other given coordinate.
  -- Mountains, trees and other objects can be positioned between the two 3D points, preventing visibilty in a straight continuous line.
-  -- The method @{#COORDINATE.IsLOS}() returns if the two coodinates have LOS.
+  -- The method @{#COORDINATE.IsLOS}() returns if the two coordinates have LOS.
  --
  -- ## 4.7) Check the coordinate position.
  --
@@ -406,6 +406,42 @@ do -- COORDINATE
    return self
  end
  --- Returns the magnetic declination at the given coordinate.
  -- NOTE that this needs `require` to be available so you need to desanitize the `MissionScripting.lua` file in your DCS/Scrips folder.
  -- If `require` is not available, a constant value for the whole map.
  -- @param #COORDINATE self
  -- @param #number Month (Optional) The month at which the declination is calculated. Default is the mission month.
  -- @param #number Year (Optional) The year at which the declination is calculated. Default is the mission year.
  -- @return #number Magnetic declination in degrees.
  function COORDINATE:GetMagneticDeclination(Month, Year)
    local decl=UTILS.GetMagneticDeclination()
    if require then
      local magvar = require('magvar')
      if magvar then
        local date, year, month, day=UTILS.GetDCSMissionDate()
        magvar.init(Month or month, Year or year)
        local lat, lon=self:GetLLDDM()
        decl=magvar.get_mag_decl(lat, lon)
        if decl then
          decl=math.deg(decl)
        end
      end
    else
      self:T("The require package is not available. Using constant value for magnetic declination")    
    end
    return decl
  end
  --- Returns the coordinate from the latitude and longitude given in decimal degrees.
  -- @param #COORDINATE self
@@ -504,7 +540,7 @@ do -- COORDINATE
    local gotscenery=false
    local function EvaluateZone(ZoneObject)
-
+      BASE:T({ZoneObject})
      if ZoneObject then
        -- Get category of scanned object.
@@ -594,7 +630,7 @@ do -- COORDINATE
  --- Scan/find SCENERY objects within a certain radius around the coordinate using the world.searchObjects() DCS API function.
  -- @param #COORDINATE self
  -- @param #number radius (Optional) Scan radius in meters. Default 100 m.
-  -- @return table Set of scenery objects.
+  -- @return table Table of SCENERY objects.
  function COORDINATE:ScanScenery(radius)
    local _,_,_,_,_,scenerys=self:ScanObjects(radius, false, false, true)
@@ -654,7 +690,7 @@ do -- COORDINATE
  -- @param DCS#Distance Distance The Distance to be added in meters.
  -- @param DCS#Angle Angle The Angle in degrees. Defaults to 0 if not specified (nil).
  -- @param #boolean Keepalt If true, keep altitude of original coordinate. Default is that the new coordinate is created at the translated land height.
-  -- @param #boolean Overwrite If true, overwrite the original COORDINATE with the translated one. Otherwise, create a new COODINATE.
+  -- @param #boolean Overwrite If true, overwrite the original COORDINATE with the translated one. Otherwise, create a new COORDINATE.
  -- @return #COORDINATE The new calculated COORDINATE.
  function COORDINATE:Translate( Distance, Angle, Keepalt, Overwrite )
@@ -825,7 +861,11 @@ do -- COORDINATE
  -- @param #COORDINATE TargetCoordinate The target COORDINATE.
  -- @return DCS#Vec3 DirectionVec3 The direction vector in Vec3 format.
  function COORDINATE:GetDirectionVec3( TargetCoordinate )
    if TargetCoordinate then
      return { x = TargetCoordinate.x - self.x, y = TargetCoordinate.y - self.y, z = TargetCoordinate.z - self.z }
    else
      return { x=0,y=0,z=0}
    end
  end
@@ -875,6 +915,11 @@ do -- COORDINATE
    -- Get the vector from A to B
    local vec=UTILS.VecSubstract(ToCoordinate, self)
    if f>1 then
      local norm=UTILS.VecNorm(vec)      
      f=Fraction/norm
    end
    -- Scale the vector.
    vec.x=f*vec.x
    vec.y=f*vec.y
@@ -883,7 +928,9 @@ do -- COORDINATE
    -- Move the vector to start at the end of A.
    vec=UTILS.VecAdd(self, vec)
    -- Create a new coordiante object.
    local coord=COORDINATE:New(vec.x,vec.y,vec.z)
    return coord
  end
@@ -912,7 +959,7 @@ do -- COORDINATE
    return T-273.15
  end
-  --- Returns a text of the temperature according the measurement system @{Settings}.
+  --- Returns a text of the temperature according the measurement system @{Core.Settings}.
  -- The text will reflect the temperature like this:
  --
  --   - For Russian and European aircraft using the metric system - Degrees Celcius (°C)
@@ -925,7 +972,7 @@ do -- COORDINATE
  --
   -- @param #COORDINATE self
  -- @param height (Optional) parameter specifying the height ASL.
-  -- @return #string Temperature according the measurement system @{Settings}.
+  -- @return #string Temperature according the measurement system @{Core.Settings}.
  function COORDINATE:GetTemperatureText( height, Settings )
    local DegreesCelcius = self:GetTemperature( height )
@@ -958,7 +1005,7 @@ do -- COORDINATE
    return P/100
  end
-  --- Returns a text of the pressure according the measurement system @{Settings}.
+  --- Returns a text of the pressure according the measurement system @{Core.Settings}.
  -- The text will contain always the pressure in hPa and:
  --
  --   - For Russian and European aircraft using the metric system - hPa and mmHg
@@ -971,7 +1018,7 @@ do -- COORDINATE
  --
  -- @param #COORDINATE self
  -- @param height (Optional) parameter specifying the height ASL. E.g. set height=0 for QNH.
-  -- @return #string Pressure in hPa and mmHg or inHg depending on the measurement system @{Settings}.
+  -- @return #string Pressure in hPa and mmHg or inHg depending on the measurement system @{Core.Settings}.
  function COORDINATE:GetPressureText( height, Settings )
    local Pressure_hPa = self:GetPressure( height )
@@ -1051,7 +1098,7 @@ do -- COORDINATE
  end
-  --- Returns a text documenting the wind direction (from) and strength according the measurement system @{Settings}.
+  --- Returns a text documenting the wind direction (from) and strength according the measurement system @{Core.Settings}.
  -- The text will reflect the wind like this:
  --
  --   - For Russian and European aircraft using the metric system - Wind direction in degrees (°) and wind speed in meters per second (mps).
@@ -1064,7 +1111,7 @@ do -- COORDINATE
  --
  -- @param #COORDINATE self
  -- @param height (Optional) parameter specifying the height ASL. The minimum height will be always be the land height since the wind is zero below the ground.
-  -- @return #string Wind direction and strength according the measurement system @{Settings}.
+  -- @return #string Wind direction and strength according the measurement system @{Core.Settings}.
  function COORDINATE:GetWindText( height, Settings )
    local Direction, Strength = self:GetWind( height )
@@ -1100,8 +1147,9 @@ do -- COORDINATE
  -- @param #number AngleRadians The angle in randians.
  -- @param #number Precision The precision.
  -- @param Core.Settings#SETTINGS Settings
  -- @param #boolean MagVar If true, include magentic degrees
  -- @return #string The bearing text in degrees.
-  function COORDINATE:GetBearingText( AngleRadians, Precision, Settings, Language )
+  function COORDINATE:GetBearingText( AngleRadians, Precision, Settings, MagVar )
    local Settings = Settings or _SETTINGS -- Core.Settings#SETTINGS
@@ -1109,6 +1157,15 @@ do -- COORDINATE
    local s = string.format( '%03d°', AngleDegrees )
    if MagVar then
      local variation = UTILS.GetMagneticDeclination() or 0
      local AngleMagnetic = AngleDegrees - variation
      if AngleMagnetic < 0 then AngleMagnetic = 360-AngleMagnetic end
      s = string.format( '%03d°M|%03d°', AngleMagnetic,AngleDegrees )
    end
    return s
  end
@@ -1122,21 +1179,22 @@ do -- COORDINATE
  function COORDINATE:GetDistanceText( Distance, Settings, Language, Precision )
    local Settings = Settings or _SETTINGS -- Core.Settings#SETTINGS
-    local Language = Language or "EN"
+    local Language = Language or Settings.Locale or _SETTINGS.Locale or "EN"
    Language = string.lower(Language)
    local Precision = Precision or 0
    local DistanceText
    if Settings:IsMetric() then
-      if     Language == "EN" then
+      if     Language == "en" then
        DistanceText = " for " .. UTILS.Round( Distance / 1000, Precision ) .. " km"
-      elseif Language == "RU" then
+      elseif Language == "ru" then
        DistanceText = " за " .. UTILS.Round( Distance / 1000, Precision ) .. " километров"
      end
    else
-      if     Language == "EN" then
+      if     Language == "en" then
        DistanceText = " for " .. UTILS.Round( UTILS.MetersToNM( Distance ), Precision ) .. " miles"
-      elseif Language == "RU" then
+      elseif Language == "ru" then
        DistanceText = " за " .. UTILS.Round( UTILS.MetersToNM( Distance ), Precision ) .. " миль"
      end
    end
@@ -1150,19 +1208,21 @@ do -- COORDINATE
  function COORDINATE:GetAltitudeText( Settings, Language )
    local Altitude = self.y
    local Settings = Settings or _SETTINGS
-    local Language = Language or "EN"
+    local Language = Language or Settings.Locale or _SETTINGS.Locale or "EN"
    Language = string.lower(Language)
    if Altitude ~= 0 then
      if Settings:IsMetric() then
-        if     Language == "EN" then
+        if     Language == "en" then
          return " at " .. UTILS.Round( self.y, -3 ) .. " meters"
-        elseif Language == "RU" then
+        elseif Language == "ru" then
          return " в " .. UTILS.Round( self.y, -3 ) .. " метры"
        end
      else
-        if     Language == "EN" then
+        if     Language == "en" then
          return " at " .. UTILS.Round( UTILS.MetersToFeet( self.y ), -3 ) .. " feet"
-        elseif Language == "RU" then
+        elseif Language == "ru" then
          return " в " .. UTILS.Round( self.y, -3 ) .. " ноги"
        end
      end
@@ -1209,12 +1269,14 @@ do -- COORDINATE
  -- @param #number AngleRadians The angle in randians
  -- @param #number Distance The distance
  -- @param Core.Settings#SETTINGS Settings
  -- @param #string Language (Optional) Language "en" or "ru"
  -- @param #boolean MagVar If true, also state angle in magnetic
  -- @return #string The BR Text
-  function COORDINATE:GetBRText( AngleRadians, Distance, Settings, Language )
+  function COORDINATE:GetBRText( AngleRadians, Distance, Settings, Language, MagVar )
    local Settings = Settings or _SETTINGS -- Core.Settings#SETTINGS
-    local BearingText = self:GetBearingText( AngleRadians, 0, Settings, Language )
+    local BearingText = self:GetBearingText( AngleRadians, 0, Settings, MagVar )
    local DistanceText = self:GetDistanceText( Distance, Settings, Language, 0 )
    local BRText = BearingText .. DistanceText
@@ -1227,12 +1289,14 @@ do -- COORDINATE
  -- @param #number AngleRadians The angle in randians
  -- @param #number Distance The distance
  -- @param Core.Settings#SETTINGS Settings
  -- @param #string Language (Optional) Language "en" or "ru"
  -- @param #boolean MagVar If true, also state angle in magnetic
  -- @return #string The BRA Text
-  function COORDINATE:GetBRAText( AngleRadians, Distance, Settings, Language )
+  function COORDINATE:GetBRAText( AngleRadians, Distance, Settings, Language, MagVar )
    local Settings = Settings or _SETTINGS -- Core.Settings#SETTINGS
-    local BearingText = self:GetBearingText( AngleRadians, 0, Settings, Language )
+    local BearingText = self:GetBearingText( AngleRadians, 0, Settings, MagVar )
    local DistanceText = self:GetDistanceText( Distance, Settings, Language, 0  )
    local AltitudeText = self:GetAltitudeText( Settings, Language  )
@@ -1258,6 +1322,14 @@ do -- COORDINATE
    return self
  end
  --- Set altitude to be at land height (i.e. on the ground!)
  -- @param #COORDINATE self
  function COORDINATE:SetAtLandheight()
    local alt=self:GetLandHeight()
    self.y=alt
    return self
  end
  --- Build an air type route point.
  -- @param #COORDINATE self
  -- @param #COORDINATE.WaypointAltType AltType The altitude type.
@@ -1508,7 +1580,7 @@ do -- COORDINATE
  -- @param #number Coalition (Optional) Coalition of the airbase.
  -- @return Wrapper.Airbase#AIRBASE Closest Airbase to the given coordinate.
  -- @return #number Distance to the closest airbase in meters.
-  function COORDINATE:GetClosestAirbase2(Category, Coalition)
+  function COORDINATE:GetClosestAirbase(Category, Coalition)
    -- Get all airbases of the map.
    local airbases=AIRBASE.GetAllAirbases(Coalition)
@@ -1542,34 +1614,15 @@ do -- COORDINATE
    return closest,distmin
  end
-  --- Gets the nearest airbase with respect to the current coordinates.
+  --- [kept for downwards compatibility only] Gets the nearest airbase with respect to the current coordinates.
  -- @param #COORDINATE self
  -- @param #number Category (Optional) Category of the airbase. Enumerator of @{Wrapper.Airbase#AIRBASE.Category}.
  -- @param #number Coalition (Optional) Coalition of the airbase.
  -- @return Wrapper.Airbase#AIRBASE Closest Airbase to the given coordinate.
  -- @return #number Distance to the closest airbase in meters.
-  function COORDINATE:GetClosestAirbase(Category, Coalition)
+  function COORDINATE:GetClosestAirbase2(Category, Coalition)
-
+    local closest, distmin = self:GetClosestAirbase(Category, Coalition)
-    local a=self:GetVec3()
+    return closest, distmin 
    local distmin=math.huge
    local airbase=nil
    for DCSairbaseID, DCSairbase in pairs(world.getAirbases(Coalition)) do
      local b=DCSairbase:getPoint()
      local c=UTILS.VecSubstract(a,b)
      local dist=UTILS.VecNorm(c)
      --env.info(string.format("Airbase %s dist=%d category=%d", DCSairbase:getName(), dist, DCSairbase:getCategory()))
      if dist<distmin and (Category==nil or Category==DCSairbase:getDesc().category) then
        distmin=dist
        airbase=DCSairbase
      end
    end
    return AIRBASE:Find(airbase)
  end
  --- Gets the nearest parking spot.
@@ -1902,7 +1955,6 @@ do -- COORDINATE
  -- @param #COORDINATE self
  -- @param #string name (Optional) Name of the fire to stop it, if not using the same COORDINATE object.
  function COORDINATE:StopBigSmokeAndFire( name )
    self:F2( { name = name } )
    name = name or self.firename
    trigger.action.effectSmokeStop( name )
  end
@@ -2267,7 +2319,7 @@ do -- COORDINATE
    end
    --- Creates a free form shape on the F10 map. The first point is the current COORDINATE. The remaining points need to be specified.
-    -- **NOTE**: A free form polygon must have **at least three points** in total and currently only **up to 10 points** in total are supported.
+    -- **NOTE**: A free form polygon must have **at least three points** in total and currently only **up to 15 points** in total are supported.
    -- @param #COORDINATE self
    -- @param #table Coordinates Table of coordinates of the remaining points of the shape.
    -- @param #number Coalition Coalition: All=-1, Neutral=0, Red=1, Blue=2. Default -1=All.
@@ -2320,8 +2372,28 @@ do -- COORDINATE
        trigger.action.markupToAll(7, Coalition, MarkID, vecs[1], vecs[2], vecs[3], vecs[4], vecs[5], vecs[6], vecs[7], vecs[8], vecs[9], Color, FillColor, LineType, ReadOnly, Text or "")
      elseif #vecs==10 then
        trigger.action.markupToAll(7, Coalition, MarkID, vecs[1], vecs[2], vecs[3], vecs[4], vecs[5], vecs[6], vecs[7], vecs[8], vecs[9], vecs[10], Color, FillColor, LineType, ReadOnly, Text or "")
      elseif #vecs==11 then
        trigger.action.markupToAll(7, Coalition, MarkID, vecs[1], vecs[2], vecs[3], vecs[4], vecs[5], vecs[6], vecs[7], vecs[8], vecs[9], vecs[10],
                                                         vecs[11], 
                                                         Color, FillColor, LineType, ReadOnly, Text or "")        
      elseif #vecs==12 then
        trigger.action.markupToAll(7, Coalition, MarkID, vecs[1], vecs[2], vecs[3], vecs[4], vecs[5], vecs[6], vecs[7], vecs[8], vecs[9], vecs[10],
                                                         vecs[11], vecs[12],
                                                         Color, FillColor, LineType, ReadOnly, Text or "")
      elseif #vecs==13 then
        trigger.action.markupToAll(7, Coalition, MarkID, vecs[1], vecs[2], vecs[3], vecs[4], vecs[5], vecs[6], vecs[7], vecs[8], vecs[9], vecs[10],
                                                         vecs[11], vecs[12], vecs[13],
                                                         Color, FillColor, LineType, ReadOnly, Text or "")
      elseif #vecs==14 then
        trigger.action.markupToAll(7, Coalition, MarkID, vecs[1], vecs[2], vecs[3], vecs[4], vecs[5], vecs[6], vecs[7], vecs[8], vecs[9], vecs[10],
                                                         vecs[11], vecs[12], vecs[13], vecs[14],
                                                         Color, FillColor, LineType, ReadOnly, Text or "")                                                                                                                                                                                                           
      elseif #vecs==15 then
        trigger.action.markupToAll(7, Coalition, MarkID, vecs[1], vecs[2], vecs[3], vecs[4], vecs[5], vecs[6], vecs[7], vecs[8], vecs[9], vecs[10],
                                                         vecs[11], vecs[12], vecs[13], vecs[14], vecs[15],
                                                         Color, FillColor, LineType, ReadOnly, Text or "")
      else
-        self:E("ERROR: Currently a free form polygon can only have 10 points in total!")
+        self:E("ERROR: Currently a free form polygon can only have 15 points in total!")
        -- Unfortunately, unpack(vecs) does not work! So no idea how to generalize this :(
        trigger.action.markupToAll(7, Coalition, MarkID, unpack(vecs), Color, FillColor, LineType, ReadOnly, Text or "")
      end
@@ -2743,25 +2815,27 @@ do -- COORDINATE
  -- @param #COORDINATE self
  -- @param #COORDINATE FromCoordinate The coordinate to measure the distance and the bearing from.
  -- @param Core.Settings#SETTINGS Settings (optional) The settings. Can be nil, and in this case the default settings are used. If you want to specify your own settings, use the _SETTINGS object.
  -- @param #boolean MagVar If true, also get angle in MagVar for BR/BRA
  -- @return #string The BR text.
-  function COORDINATE:ToStringBR( FromCoordinate, Settings )
+  function COORDINATE:ToStringBR( FromCoordinate, Settings, MagVar )
    local DirectionVec3 = FromCoordinate:GetDirectionVec3( self )
    local AngleRadians =  self:GetAngleRadians( DirectionVec3 )
    local Distance = self:Get2DDistance( FromCoordinate )
-    return "BR, " .. self:GetBRText( AngleRadians, Distance, Settings )
+    return "BR, " .. self:GetBRText( AngleRadians, Distance, Settings, nil, MagVar )
  end
-  --- Return a BRAA string from a COORDINATE to the COORDINATE.
+  --- Return a BRA string from a COORDINATE to the COORDINATE.
  -- @param #COORDINATE self
  -- @param #COORDINATE FromCoordinate The coordinate to measure the distance and the bearing from.
  -- @param Core.Settings#SETTINGS Settings (optional) The settings. Can be nil, and in this case the default settings are used. If you want to specify your own settings, use the _SETTINGS object.
  -- @param #boolean MagVar If true, also get angle in MagVar for BR/BRA
  -- @return #string The BR text.
-  function COORDINATE:ToStringBRA( FromCoordinate, Settings, Language )
+  function COORDINATE:ToStringBRA( FromCoordinate, Settings, MagVar )
    local DirectionVec3 = FromCoordinate:GetDirectionVec3( self )
    local AngleRadians =  self:GetAngleRadians( DirectionVec3 )
    local Distance = FromCoordinate:Get2DDistance( self )
    local Altitude = self:GetAltitudeText()
-    return "BRA, " .. self:GetBRAText( AngleRadians, Distance, Settings, Language )
+    return "BRA, " .. self:GetBRAText( AngleRadians, Distance, Settings, nil, MagVar )
  end
  --- Create a BRAA NATO call string to this COORDINATE from the FromCOORDINATE. Note - BRA delivered if no aspect can be obtained and "Merged" if range < 3nm
@@ -2856,14 +2930,15 @@ do -- COORDINATE
  -- @param #COORDINATE self
  -- @param DCS#coalition.side Coalition The coalition.
  -- @param Core.Settings#SETTINGS Settings (optional) The settings. Can be nil, and in this case the default settings are used. If you want to specify your own settings, use the _SETTINGS object.
  -- @param #boolean MagVar If true, als get angle in magnetic
  -- @return #string The BR text.
-  function COORDINATE:ToStringBULLS( Coalition, Settings )
+  function COORDINATE:ToStringBULLS( Coalition, Settings, MagVar )
    local BullsCoordinate = COORDINATE:NewFromVec3( coalition.getMainRefPoint( Coalition ) )
    local DirectionVec3 = BullsCoordinate:GetDirectionVec3( self )
    local AngleRadians =  self:GetAngleRadians( DirectionVec3 )
    local Distance = self:Get2DDistance( BullsCoordinate )
    local Altitude = self:GetAltitudeText()
-    return "BULLS, " .. self:GetBRText( AngleRadians, Distance, Settings )
+    return "BULLS, " .. self:GetBRText( AngleRadians, Distance, Settings, nil, MagVar )
  end
  --- Return an aspect string from a COORDINATE to the Angle of the object.
@@ -2927,7 +3002,7 @@ do -- COORDINATE
  -- @param #COORDINATE self
  -- @param Core.Settings#SETTINGS Settings (optional) The settings. Can be nil, and in this case the default settings are used. If you want to specify your own settings, use the _SETTINGS object.
  -- @return #string The MGRS Text
-  function COORDINATE:ToStringMGRS( Settings ) --R2.1 Fixes issue #424.
+  function COORDINATE:ToStringMGRS( Settings )
    local MGRS_Accuracy = Settings and Settings.MGRS_Accuracy or _SETTINGS.MGRS_Accuracy
    local lat, lon = coord.LOtoLL( self:GetVec3() )
@@ -2939,12 +3014,13 @@ do -- COORDINATE
  --   * Uses default settings in COORDINATE.
  --   * Can be overridden if for a GROUP containing x clients, a menu was selected to override the default.
  -- @param #COORDINATE self
-  -- @param #COORDINATE ReferenceCoord The refrence coordinate.
+  -- @param #COORDINATE ReferenceCoord The reference coordinate.
-  -- @param #string ReferenceName The refrence name.
+  -- @param #string ReferenceName The reference name.
  -- @param Wrapper.Controllable#CONTROLLABLE Controllable
  -- @param Core.Settings#SETTINGS Settings (optional) The settings. Can be nil, and in this case the default settings are used. If you want to specify your own settings, use the _SETTINGS object.
  -- @param #boolean MagVar If true also show angle in magnetic
  -- @return #string The coordinate Text in the configured coordinate system.
-  function COORDINATE:ToStringFromRP( ReferenceCoord, ReferenceName, Controllable, Settings )
+  function COORDINATE:ToStringFromRP( ReferenceCoord, ReferenceName, Controllable, Settings, MagVar )
    self:F2( { ReferenceCoord = ReferenceCoord, ReferenceName = ReferenceName } )
@@ -2956,12 +3032,46 @@ do -- COORDINATE
      local DirectionVec3 = ReferenceCoord:GetDirectionVec3( self )
      local AngleRadians =  self:GetAngleRadians( DirectionVec3 )
      local Distance = self:Get2DDistance( ReferenceCoord )
-      return "Targets are the last seen " .. self:GetBRText( AngleRadians, Distance, Settings ) .. " from " .. ReferenceName
+      return "Targets are the last seen " .. self:GetBRText( AngleRadians, Distance, Settings, nil, MagVar ) .. " from " .. ReferenceName
    else
      local DirectionVec3 = ReferenceCoord:GetDirectionVec3( self )
      local AngleRadians =  self:GetAngleRadians( DirectionVec3 )
      local Distance = self:Get2DDistance( ReferenceCoord )
-      return "Target are located " .. self:GetBRText( AngleRadians, Distance, Settings ) .. " from " .. ReferenceName
+      return "Target are located " .. self:GetBRText( AngleRadians, Distance, Settings, nil, MagVar ) .. " from " .. ReferenceName
    end
    return nil
  end
  --- Provides a coordinate string of the point, based on a coordinate format system:
  --   * Uses default settings in COORDINATE.
  --   * Can be overridden if for a GROUP containing x clients, a menu was selected to override the default.
  -- @param #COORDINATE self
  -- @param #COORDINATE ReferenceCoord The reference coordinate.
  -- @param #string ReferenceName The reference name.
  -- @param Wrapper.Controllable#CONTROLLABLE Controllable
  -- @param Core.Settings#SETTINGS Settings (optional) The settings. Can be nil, and in this case the default settings are used. If you want to specify your own settings, use the _SETTINGS object.
  -- @param #boolean MagVar If true also get the angle as magnetic
  -- @return #string The coordinate Text in the configured coordinate system.
  function COORDINATE:ToStringFromRPShort( ReferenceCoord, ReferenceName, Controllable, Settings, MagVar )
    self:F2( { ReferenceCoord = ReferenceCoord, ReferenceName = ReferenceName } )
    local Settings = Settings or ( Controllable and _DATABASE:GetPlayerSettings( Controllable:GetPlayerName() ) ) or _SETTINGS
    local IsAir = Controllable and Controllable:IsAirPlane() or false
    if IsAir then
      local DirectionVec3 = ReferenceCoord:GetDirectionVec3( self )
      local AngleRadians =  self:GetAngleRadians( DirectionVec3 )
      local Distance = self:Get2DDistance( ReferenceCoord )
      return self:GetBRText( AngleRadians, Distance, Settings, nil, MagVar ) .. " from " .. ReferenceName
    else
      local DirectionVec3 = ReferenceCoord:GetDirectionVec3( self )
      local AngleRadians =  self:GetAngleRadians( DirectionVec3 )
      local Distance = self:Get2DDistance( ReferenceCoord )
      return self:GetBRText( AngleRadians, Distance, Settings, nil, MagVar ) .. " from " .. ReferenceName
    end
    return nil
@@ -2972,8 +3082,9 @@ do -- COORDINATE
  -- @param #COORDINATE self
  -- @param Wrapper.Controllable#CONTROLLABLE Controllable
  -- @param Core.Settings#SETTINGS Settings (optional) The settings. Can be nil, and in this case the default settings are used. If you want to specify your own settings, use the _SETTINGS object.
  -- @param #boolean MagVar If true, also get angle in MagVar for BR/BRA
  -- @return #string The coordinate Text in the configured coordinate system.
-  function COORDINATE:ToStringA2G( Controllable, Settings )
+  function COORDINATE:ToStringA2G( Controllable, Settings, MagVar )
    self:F2( { Controllable = Controllable and Controllable:GetName() } )
@@ -2983,7 +3094,7 @@ do -- COORDINATE
      -- If no Controllable is given to calculate the BR from, then MGRS will be used!!!
      if Controllable then
        local Coordinate = Controllable:GetCoordinate()
-        return Controllable and self:ToStringBR( Coordinate, Settings ) or self:ToStringMGRS( Settings )
+        return Controllable and self:ToStringBR( Coordinate, Settings, MagVar ) or self:ToStringMGRS( Settings )
      else
        return self:ToStringMGRS( Settings )
      end
@@ -3007,8 +3118,9 @@ do -- COORDINATE
  -- @param #COORDINATE self
  -- @param Wrapper.Controllable#CONTROLLABLE Controllable
  -- @param Core.Settings#SETTINGS Settings (optional) The settings. Can be nil, and in this case the default settings are used. If you want to specify your own settings, use the _SETTINGS object.
  -- @param #boolean MagVar If true, also get angle in MagVar for BR/BRA
  -- @return #string The coordinate Text in the configured coordinate system.
-  function COORDINATE:ToStringA2A( Controllable, Settings, Language ) -- R2.2
+  function COORDINATE:ToStringA2A( Controllable, Settings, MagVar ) 
    self:F2( { Controllable = Controllable and Controllable:GetName() } )
@@ -3017,23 +3129,23 @@ do -- COORDINATE
    if Settings:IsA2A_BRAA() then
      if Controllable then
        local Coordinate = Controllable:GetCoordinate()
-        return self:ToStringBRA( Coordinate, Settings, Language )
+        return self:ToStringBRA( Coordinate, Settings, MagVar )
      else
-        return self:ToStringMGRS( Settings, Language )
+        return self:ToStringMGRS( Settings )
      end
    end
    if Settings:IsA2A_BULLS() then
      local Coalition = Controllable:GetCoalition()
-      return self:ToStringBULLS( Coalition, Settings, Language )
+      return self:ToStringBULLS( Coalition, Settings, MagVar )
    end
    if Settings:IsA2A_LL_DMS()  then
-      return self:ToStringLLDMS( Settings, Language )
+      return self:ToStringLLDMS( Settings )
    end
    if Settings:IsA2A_LL_DDM()  then
-      return self:ToStringLLDDM( Settings, Language )
+      return self:ToStringLLDDM( Settings )
    end
    if Settings:IsA2A_MGRS() then
-      return self:ToStringMGRS( Settings, Language )
+      return self:ToStringMGRS( Settings )
    end
    return nil
@@ -3101,7 +3213,7 @@ do -- COORDINATE
  -- @param Wrapper.Controllable#CONTROLLABLE Controllable
  -- @param Core.Settings#SETTINGS Settings (optional) The settings. Can be nil, and in this case the default settings are used. If you want to specify your own settings, use the _SETTINGS object.
  -- @return #string The pressure text in the configured measurement system.
-  function COORDINATE:ToStringPressure( Controllable, Settings ) -- R2.3
+  function COORDINATE:ToStringPressure( Controllable, Settings ) 
    self:F2( { Controllable = Controllable and Controllable:GetName() } )
@@ -3278,21 +3390,21 @@ do -- POINT_VEC3
  --- Return the x coordinate of the POINT_VEC3.
  -- @param #POINT_VEC3 self
-  -- @return #number The x coodinate.
+  -- @return #number The x coordinate.
  function POINT_VEC3:GetX()
    return self.x
  end
  --- Return the y coordinate of the POINT_VEC3.
  -- @param #POINT_VEC3 self
-  -- @return #number The y coodinate.
+  -- @return #number The y coordinate.
  function POINT_VEC3:GetY()
    return self.y
  end
  --- Return the z coordinate of the POINT_VEC3.
  -- @param #POINT_VEC3 self
-  -- @return #number The z coodinate.
+  -- @return #number The z coordinate.
  function POINT_VEC3:GetZ()
    return self.z
  end
@@ -3326,7 +3438,7 @@ do -- POINT_VEC3
  --- Add to the x coordinate of the POINT_VEC3.
  -- @param #POINT_VEC3 self
-  -- @param #number x The x coordinate value to add to the current x coodinate.
+  -- @param #number x The x coordinate value to add to the current x coordinate.
  -- @return #POINT_VEC3
  function POINT_VEC3:AddX( x )
    self.x = self.x + x
@@ -3335,7 +3447,7 @@ do -- POINT_VEC3
  --- Add to the y coordinate of the POINT_VEC3.
  -- @param #POINT_VEC3 self
-  -- @param #number y The y coordinate value to add to the current y coodinate.
+  -- @param #number y The y coordinate value to add to the current y coordinate.
  -- @return #POINT_VEC3
  function POINT_VEC3:AddY( y )
    self.y = self.y + y
@@ -3344,7 +3456,7 @@ do -- POINT_VEC3
  --- Add to the z coordinate of the POINT_VEC3.
  -- @param #POINT_VEC3 self
-  -- @param #number z The z coordinate value to add to the current z coodinate.
+  -- @param #number z The z coordinate value to add to the current z coordinate.
  -- @return #POINT_VEC3
  function POINT_VEC3:AddZ( z )
    self.z = self.z +z
@@ -3450,14 +3562,14 @@ do -- POINT_VEC2
  --- Return the x coordinate of the POINT_VEC2.
  -- @param #POINT_VEC2 self
-  -- @return #number The x coodinate.
+  -- @return #number The x coordinate.
  function POINT_VEC2:GetX()
    return self.x
  end
  --- Return the y coordinate of the POINT_VEC2.
  -- @param #POINT_VEC2 self
-  -- @return #number The y coodinate.
+  -- @return #number The y coordinate.
  function POINT_VEC2:GetY()
    return self.z
  end
@@ -3482,7 +3594,7 @@ do -- POINT_VEC2
  --- Return Return the Lat(itude) coordinate of the POINT_VEC2 (ie: (parent)POINT_VEC3.x).
  -- @param #POINT_VEC2 self
-  -- @return #number The x coodinate.
+  -- @return #number The x coordinate.
  function POINT_VEC2:GetLat()
    return self.x
  end
@@ -3498,7 +3610,7 @@ do -- POINT_VEC2
  --- Return the Lon(gitude) coordinate of the POINT_VEC2 (ie: (parent)POINT_VEC3.z).
  -- @param #POINT_VEC2 self
-  -- @return #number The y coodinate.
+  -- @return #number The y coordinate.
  function POINT_VEC2:GetLon()
    return self.z
  end
--- a/Development/Moose/Core/ScheduleDispatcher.lua
+++ b/Development/Moose/Core/ScheduleDispatcher.lua
@@ -1,4 +1,4 @@
--- **Core** -- SCHEDULEDISPATCHER dispatches the different schedules.
+--- **Core** - SCHEDULEDISPATCHER dispatches the different schedules.
 --
 -- ===
 --
@@ -109,9 +109,11 @@ function SCHEDULEDISPATCHER:AddSchedule( Scheduler, ScheduleFunction, ScheduleAr
  self.ObjectSchedulers = self.ObjectSchedulers or setmetatable( {}, { __mode = "v" } )
  if Scheduler.MasterObject then
    --env.info("FF Object Scheduler")
    self.ObjectSchedulers[CallID] = Scheduler
    self:F3( { CallID = CallID, ObjectScheduler = tostring( self.ObjectSchedulers[CallID] ), MasterObject = tostring( Scheduler.MasterObject ) } )
  else
    --env.info("FF Persistent Scheduler")
    self.PersistentSchedulers[CallID] = Scheduler
    self:F3( { CallID = CallID, PersistentScheduler = self.PersistentSchedulers[CallID] } )
  end
@@ -122,7 +124,7 @@ function SCHEDULEDISPATCHER:AddSchedule( Scheduler, ScheduleFunction, ScheduleAr
  self.Schedule[Scheduler][CallID].Function = ScheduleFunction
  self.Schedule[Scheduler][CallID].Arguments = ScheduleArguments
  self.Schedule[Scheduler][CallID].StartTime = timer.getTime() + ( Start or 0 )
-  self.Schedule[Scheduler][CallID].Start = Start + 0.1
+  self.Schedule[Scheduler][CallID].Start = Start + 0.001
  self.Schedule[Scheduler][CallID].Repeat = Repeat or 0
  self.Schedule[Scheduler][CallID].Randomize = Randomize or 0
  self.Schedule[Scheduler][CallID].Stop = Stop
@@ -217,6 +219,7 @@ function SCHEDULEDISPATCHER:AddSchedule( Scheduler, ScheduleFunction, ScheduleAr
          if ShowTrace then
            SchedulerObject:T( Prefix .. Name .. ":" .. Line .. " (" .. Source .. ")" )
          end
          -- The master object is passed as first parameter. A few :Schedule() calls in MOOSE expect this currently. But in principle it should be removed.
          return ScheduleFunction( SchedulerObject, unpack( ScheduleArguments ) ) 
        end
        Status, Result = xpcall( Timer, ErrorHandler )
@@ -314,7 +317,7 @@ end
 --- Stop dispatcher.
 -- @param #SCHEDULEDISPATCHER self
 -- @param Core.Scheduler#SCHEDULER Scheduler Scheduler object.
-- @param #table CallID Call ID.
+-- @param #string CallID (Optional) Scheduler Call ID. If nil, all pending schedules are stopped recursively.
 function SCHEDULEDISPATCHER:Stop( Scheduler, CallID )
  self:F2( { Stop = CallID, Scheduler = Scheduler } )
--- a/Development/Moose/Core/Scheduler.lua
+++ b/Development/Moose/Core/Scheduler.lua
@@ -237,7 +237,7 @@ end
 -- @param #number Stop Time interval in seconds after which the scheduler will be stopped.
 -- @param #number TraceLevel Trace level [0,3]. Default 3.
 -- @param Core.Fsm#FSM Fsm Finite state model.
-- @return #table The ScheduleID of the planned schedule.
+-- @return #string The Schedule ID of the planned schedule.
 function SCHEDULER:Schedule( MasterObject, SchedulerFunction, SchedulerArguments, Start, Repeat, RandomizeFactor, Stop, TraceLevel, Fsm )
  self:F2( { Start, Repeat, RandomizeFactor, Stop } )
  self:T3( { SchedulerArguments } )
--- a/Development/Moose/Core/Set.lua
+++ b/Development/Moose/Core/Set.lua
--- a/Development/Moose/Core/Settings.lua
+++ b/Development/Moose/Core/Settings.lua
@@ -1,4 +1,4 @@
--- **Core** - Manages various settings for running missions, consumed by moose classes and provides a menu system for players to tweak settings in running missions.
+--- **Core** - Manages various settings for missions, providing a menu for players to tweak settings in running missions.
 --
 -- ===
 --
@@ -251,6 +251,7 @@ do -- SETTINGS
      self:SetMessageTime( MESSAGE.Type.Overview, 60 )
      self:SetMessageTime( MESSAGE.Type.Update, 15 )
      self:SetEraModern()
      self:SetLocale("en")
      return self
    else
      local Settings = _DATABASE:GetPlayerSettings( PlayerName )
@@ -283,6 +284,20 @@ do -- SETTINGS
    self.Metric = true
  end
  --- Sets the SETTINGS default text locale.
  -- @param #SETTINGS self
  -- @param #string Locale
  function SETTINGS:SetLocale(Locale)
    self.Locale = Locale or "en"
  end
  --- Gets the SETTINGS text locale.
  -- @param #SETTINGS self
  -- @return #string
  function SETTINGS:GetLocale()
    return self.Locale or _SETTINGS:GetLocale()
  end
  --- Gets if the SETTINGS is metric.
  -- @param #SETTINGS self
  -- @return #boolean true if metric.
@@ -300,7 +315,7 @@ do -- SETTINGS
  -- @param #SETTINGS self
  -- @return #boolean true if imperial.
  function SETTINGS:IsImperial()
-    return (self.Metric ~= nil and self.Metric == false) or (self.Metric == nil and _SETTINGS:IsMetric())
+    return (self.Metric ~= nil and self.Metric == false) or (self.Metric == nil and _SETTINGS:IsImperial())
  end
  --- Sets the SETTINGS LL accuracy.
@@ -320,7 +335,7 @@ do -- SETTINGS
  --- Sets the SETTINGS MGRS accuracy.
  -- @param #SETTINGS self
-  -- @param #number MGRS_Accuracy
+  -- @param #number MGRS_Accuracy 0 to 5
  -- @return #SETTINGS
  function SETTINGS:SetMGRS_Accuracy( MGRS_Accuracy )
    self.MGRS_Accuracy = MGRS_Accuracy
--- a/Development/Moose/Core/Spawn.lua
+++ b/Development/Moose/Core/Spawn.lua
@@ -167,7 +167,7 @@
 --
 --   * @{#SPAWN.InitRandomizePosition}(): Randomizes the position of @{Wrapper.Group}s that are spawned within a **radius band**, given an Outer and Inner radius, from the point that the spawn happens.
 --   * @{#SPAWN.InitRandomizeUnits}(): Randomizes the @{Wrapper.Unit}s in the @{Wrapper.Group} that is spawned within a **radius band**, given an Outer and Inner radius.
--   * @{#SPAWN.InitRandomizeZones}(): Randomizes the spawning between a predefined list of @{Zone}s that are declared using this function. Each zone can be given a probability factor.
+--   * @{#SPAWN.InitRandomizeZones}(): Randomizes the spawning between a predefined list of @{Core.Zone}s that are declared using this function. Each zone can be given a probability factor.
 --
 -- ### Enable / Disable AI when spawning a new @{Wrapper.Group}
 --
@@ -200,13 +200,13 @@
 --   * @{#SPAWN.ReSpawn}(): Re-spawn a group based on a given index.
 --   * @{#SPAWN.SpawnFromVec3}(): Spawn a new group from a Vec3 coordinate. (The group will can be spawned at a point in the air).
 --   * @{#SPAWN.SpawnFromVec2}(): Spawn a new group from a Vec2 coordinate. (The group will be spawned at land height ).
--   * @{#SPAWN.SpawnFromStatic}(): Spawn a new group from a structure, taking the position of a @{Static}.
+--   * @{#SPAWN.SpawnFromStatic}(): Spawn a new group from a structure, taking the position of a @{Wrapper.Static}.
 --   * @{#SPAWN.SpawnFromUnit}(): Spawn a new group taking the position of a @{Wrapper.Unit}.
--   * @{#SPAWN.SpawnInZone}(): Spawn a new group in a @{Zone}.
+--   * @{#SPAWN.SpawnInZone}(): Spawn a new group in a @{Core.Zone}.
 --   * @{#SPAWN.SpawnAtAirbase}(): Spawn a new group at an @{Wrapper.Airbase}, which can be an airdrome, ship or helipad.
 --
 -- Note that @{#SPAWN.Spawn} and @{#SPAWN.ReSpawn} return a @{Wrapper.Group#GROUP.New} object, that contains a reference to the DCSGroup object.
-- You can use the @{GROUP} object to do further actions with the DCSGroup.
+-- You can use the @{Wrapper.Group#GROUP} object to do further actions with the DCSGroup.
 --
 -- ### **Scheduled** spawning methods
 --
@@ -389,7 +389,7 @@ end
 -- @param #SPAWN self
 -- @param #table SpawnTemplate is the Template of the Group. This must be a valid Group Template structure!
 -- @param #string SpawnTemplatePrefix is the name of the Group that will be given at each spawn.
-- @param #string SpawnAliasPrefix (optional) is the name that will be given to the Group at runtime.
+-- @param #string SpawnAliasPrefix is the name that will be given to the Group at runtime.
 -- @return #SPAWN
 -- @usage
 -- -- Create a new SPAWN object based on a Group Template defined from scratch.
@@ -403,7 +403,7 @@ function SPAWN:NewFromTemplate( SpawnTemplate, SpawnTemplatePrefix, SpawnAliasPr
  local self = BASE:Inherit( self, BASE:New() )
  self:F( { SpawnTemplate, SpawnTemplatePrefix, SpawnAliasPrefix } )
  if SpawnAliasPrefix == nil or SpawnAliasPrefix == "" then
-    BASE:I( "ERROR: in function NewFromTemplate, required paramter SpawnAliasPrefix is not set" )
+    BASE:I( "ERROR: in function NewFromTemplate, required parameter SpawnAliasPrefix is not set" )
    return nil
  end
@@ -765,7 +765,7 @@ end
 --- Randomizes the UNITs that are spawned within a radius band given an Outer and Inner radius.
 -- @param #SPAWN self
-- @param #boolean RandomizeUnits If true, SPAWN will perform the randomization of the @{UNIT}s position within the group between a given outer and inner radius.
+-- @param #boolean RandomizeUnits If true, SPAWN will perform the randomization of the @{Wrapper.Unit#UNIT}s position within the group between a given outer and inner radius.
 -- @param DCS#Distance OuterRadius (optional) The outer radius in meters where the new group will be spawned.
 -- @param DCS#Distance InnerRadius (optional) The inner radius in meters where the new group will NOT be spawned.
 -- @return #SPAWN
@@ -814,7 +814,12 @@ end
 function SPAWN:InitRandomizeTemplate( SpawnTemplatePrefixTable )
  self:F( { self.SpawnTemplatePrefix, SpawnTemplatePrefixTable } )
-  self.SpawnTemplatePrefixTable = SpawnTemplatePrefixTable
+  local temptable = {}
  for _,_temp in pairs(SpawnTemplatePrefixTable) do
    temptable[#temptable+1] = _temp
  end
  self.SpawnTemplatePrefixTable = UTILS.ShuffleTable(temptable)
  self.SpawnRandomizeTemplate = true
  for SpawnGroupID = 1, self.SpawnMaxGroups do
@@ -848,15 +853,11 @@ end
 --   Spawn_US_Platoon_Middle = SPAWN:New( 'US Tank Platoon Middle' ):InitLimit( 12, 150 ):SpawnScheduled( 200, 0.4 ):InitRandomizeTemplateSet( Spawn_US_PlatoonSet ):InitRandomizeRoute( 3, 3, 2000 )
 --   Spawn_US_Platoon_Right = SPAWN:New( 'US Tank Platoon Right' ):InitLimit( 12, 150 ):SpawnScheduled( 200, 0.4 ):InitRandomizeTemplateSet( Spawn_US_PlatoonSet ):InitRandomizeRoute( 3, 3, 2000 )
 --
-function SPAWN:InitRandomizeTemplateSet( SpawnTemplateSet ) -- R2.3
+function SPAWN:InitRandomizeTemplateSet( SpawnTemplateSet )
  self:F( { self.SpawnTemplatePrefix } )
-  self.SpawnTemplatePrefixTable = SpawnTemplateSet:GetSetNames()
+  local setnames = SpawnTemplateSet:GetSetNames()
-  self.SpawnRandomizeTemplate = true
+  self:InitRandomizeTemplate(setnames)
  for SpawnGroupID = 1, self.SpawnMaxGroups do
    self:_RandomizeTemplate( SpawnGroupID )
  end
  return self
 end
@@ -906,7 +907,7 @@ end
 --- This method provides the functionality to randomize the spawning of the Groups at a given list of zones of different types.
 -- @param #SPAWN self
-- @param #table SpawnZoneTable A table with @{Zone} objects. If this table is given, then each spawn will be executed within the given list of @{Zone}s objects.
+-- @param #table SpawnZoneTable A table with @{Core.Zone} objects. If this table is given, then each spawn will be executed within the given list of @{Core.Zone}s objects.
 -- @return #SPAWN
 -- @usage
 --
@@ -922,7 +923,12 @@ end
 function SPAWN:InitRandomizeZones( SpawnZoneTable )
  self:F( { self.SpawnTemplatePrefix, SpawnZoneTable } )
-  self.SpawnZoneTable = SpawnZoneTable
+  local temptable = {}
  for _,_temp in pairs(SpawnZoneTable) do
    temptable[#temptable+1] = _temp
  end
  self.SpawnZoneTable = UTILS.ShuffleTable(temptable)
  self.SpawnRandomizeZones = true
  for SpawnGroupID = 1, self.SpawnMaxGroups do
@@ -1159,7 +1165,7 @@ do -- Delay methods
 end -- Delay methods
 --- Will spawn a group based on the internal index.
-- Note: Uses @{DATABASE} module defined in MOOSE.
+-- Note: This method uses the global _DATABASE object (an instance of @{Core.Database#DATABASE}), which contains ALL initial and new spawned objects in MOOSE.
 -- @param #SPAWN self
 -- @return Wrapper.Group#GROUP The group that was spawned. You can use this group for further actions.
 function SPAWN:Spawn()
@@ -1174,7 +1180,7 @@ function SPAWN:Spawn()
 end
 --- Will re-spawn a group based on a given index.
-- Note: Uses @{DATABASE} module defined in MOOSE.
+-- Note: This method uses the global _DATABASE object (an instance of @{Core.Database#DATABASE}), which contains ALL initial and new spawned objects in MOOSE.
 -- @param #SPAWN self
 -- @param #string SpawnIndex The index of the group to be spawned.
 -- @return Wrapper.Group#GROUP The group that was spawned. You can use this group for further actions.
@@ -1222,7 +1228,7 @@ function SPAWN:SetSpawnIndex( SpawnIndex )
 end
 --- Will spawn a group with a specified index number.
-- Uses @{DATABASE} global object defined in MOOSE.
+-- Note: This method uses the global _DATABASE object (an instance of @{Core.Database#DATABASE}), which contains ALL initial and new spawned objects in MOOSE.
 -- @param #SPAWN self
 -- @param #string SpawnIndex The index of the group to be spawned.
 -- @return Wrapper.Group#GROUP The group that was spawned. You can use this group for further actions.
@@ -2403,8 +2409,7 @@ end
 -- @param #SPAWN self
 -- @param DCS#Vec3 Vec3 The Vec3 coordinates where to spawn the group.
 -- @param #number SpawnIndex (optional) The index which group to spawn within the given zone.
-- @return Wrapper.Group#GROUP that was spawned.
+-- @return Wrapper.Group#GROUP that was spawned or #nil if nothing was spawned.
 -- @return #nil Nothing was spawned.
 function SPAWN:SpawnFromVec3( Vec3, SpawnIndex )
  self:F( { self.SpawnTemplatePrefix, Vec3, SpawnIndex } )
@@ -2472,8 +2477,7 @@ end
 -- @param #SPAWN self
 -- @param Core.Point#Coordinate Coordinate The Coordinate coordinates where to spawn the group.
 -- @param #number SpawnIndex (optional) The index which group to spawn within the given zone.
-- @return Wrapper.Group#GROUP that was spawned.
+-- @return Wrapper.Group#GROUP that was spawned or #nil if nothing was spawned.
 -- @return #nil Nothing was spawned.
 function SPAWN:SpawnFromCoordinate( Coordinate, SpawnIndex )
  self:F( { self.SpawnTemplatePrefix, SpawnIndex } )
@@ -2487,8 +2491,7 @@ end
 -- @param #SPAWN self
 -- @param Core.Point#POINT_VEC3 PointVec3 The PointVec3 coordinates where to spawn the group.
 -- @param #number SpawnIndex (optional) The index which group to spawn within the given zone.
-- @return Wrapper.Group#GROUP that was spawned.
+-- @return Wrapper.Group#GROUP that was spawned or #nil if nothing was spawned.
 -- @return #nil Nothing was spawned.
 -- @usage
 --
 --   local SpawnPointVec3 = ZONE:New( ZoneName ):GetPointVec3( 2000 ) -- Get the center of the ZONE object at 2000 meters from the ground.
@@ -2511,8 +2514,7 @@ end
 -- @param #number MinHeight (optional) The minimum height to spawn an airborne group into the zone.
 -- @param #number MaxHeight (optional) The maximum height to spawn an airborne group into the zone.
 -- @param #number SpawnIndex (optional) The index which group to spawn within the given zone.
-- @return Wrapper.Group#GROUP that was spawned.
+-- @return Wrapper.Group#GROUP that was spawned or #nil if nothing was spawned.
 -- @return #nil Nothing was spawned.
 -- @usage
 --
 --   local SpawnVec2 = ZONE:New( ZoneName ):GetVec2()
@@ -2544,8 +2546,7 @@ end
 -- @param #number MinHeight (optional) The minimum height to spawn an airborne group into the zone.
 -- @param #number MaxHeight (optional) The maximum height to spawn an airborne group into the zone.
 -- @param #number SpawnIndex (optional) The index which group to spawn within the given zone.
-- @return Wrapper.Group#GROUP that was spawned.
+-- @return Wrapper.Group#GROUP that was spawned or #nil if nothing was spawned.
 -- @return #nil Nothing was spawned.
 -- @usage
 --
 --   local SpawnPointVec2 = ZONE:New( ZoneName ):GetPointVec2()
@@ -2599,8 +2600,7 @@ end
 -- @param #number MinHeight (optional) The minimum height to spawn an airborne group into the zone.
 -- @param #number MaxHeight (optional) The maximum height to spawn an airborne group into the zone.
 -- @param #number SpawnIndex (optional) The index which group to spawn within the given zone.
-- @return Wrapper.Group#GROUP that was spawned.
+-- @return Wrapper.Group#GROUP that was spawned or #nil if nothing was spawned.
 -- @return #nil Nothing was spawned.
 -- @usage
 --
 --   local SpawnStatic = STATIC:FindByName( StaticName )
@@ -2621,8 +2621,8 @@ function SPAWN:SpawnFromStatic( HostStatic, MinHeight, MaxHeight, SpawnIndex )
  return nil
 end
--- Will spawn a Group within a given @{Zone}.
+--- Will spawn a Group within a given @{Core.Zone}.
-- The @{Zone} can be of any type derived from @{Core.Zone#ZONE_BASE}.
+-- The @{Core.Zone} can be of any type derived from @{Core.Zone#ZONE_BASE}.
 -- Once the @{Wrapper.Group} is spawned within the zone, the @{Wrapper.Group} will continue on its route.
 -- The **first waypoint** (where the group is spawned) is replaced with the zone location coordinates.
 -- @param #SPAWN self
@@ -2631,8 +2631,7 @@ end
 -- @param #number MinHeight (optional) The minimum height to spawn an airborne group into the zone.
 -- @param #number MaxHeight (optional) The maximum height to spawn an airborne group into the zone.
 -- @param #number SpawnIndex (optional) The index which group to spawn within the given zone.
-- @return Wrapper.Group#GROUP that was spawned.
+-- @return Wrapper.Group#GROUP that was spawned or #nil if nothing was spawned. 
 -- @return #nil when nothing was spawned.
 -- @usage
 --
 --   local SpawnZone = ZONE:New( ZoneName )
@@ -2944,7 +2943,7 @@ function SPAWN:_GetGroupCountryID( SpawnPrefix )
 end
 --- Gets the Group Template from the ME environment definition.
-- This method used the @{DATABASE} object, which contains ALL initial and new spawned object in MOOSE.
+-- Note: This method uses the global _DATABASE object (an instance of @{Core.Database#DATABASE}), which contains ALL initial and new spawned objects in MOOSE.
 -- @param #SPAWN self
 -- @param #string SpawnTemplatePrefix
 -- @return @SPAWN self
@@ -3039,6 +3038,7 @@ function SPAWN:_Prepare( SpawnTemplatePrefix, SpawnIndex ) -- R2.2
      if type( Callsign ) ~= "number" then -- blue callsign
        Callsign[2] = ((SpawnIndex - 1) % 10) + 1
        local CallsignName = SpawnTemplate.units[UnitID].callsign["name"] -- #string
        CallsignName = string.match(CallsignName,"^(%a+)") -- 2.8 - only the part w/o numbers
        local CallsignLen = CallsignName:len()
        SpawnTemplate.units[UnitID].callsign["name"] = CallsignName:sub( 1, CallsignLen ) .. SpawnTemplate.units[UnitID].callsign[2] .. SpawnTemplate.units[UnitID].callsign[3]
      else
@@ -3115,7 +3115,7 @@ function SPAWN:_RandomizeTemplate( SpawnIndex )
  return self
 end
--- Private method that randomizes the @{Zone}s where the Group will be spawned.
+--- Private method that randomizes the @{Core.Zone}s where the Group will be spawned.
 -- @param #SPAWN self
 -- @param #number SpawnIndex
 -- @return #SPAWN self
@@ -3376,8 +3376,12 @@ function SPAWN:_SpawnCleanUpScheduler()
  local SpawnGroup, SpawnCursor = self:GetFirstAliveGroup()
  self:T( { "CleanUp Scheduler:", SpawnGroup, SpawnCursor } )
  local IsHelo = false
  while SpawnGroup do
    IsHelo = SpawnGroup:IsHelicopter()
    local SpawnUnits = SpawnGroup:GetUnits()
    for UnitID, UnitData in pairs( SpawnUnits ) do
@@ -3390,8 +3394,8 @@ function SPAWN:_SpawnCleanUpScheduler()
      self:T( { SpawnUnitName, Stamp } )
      if Stamp.Vec2 then
-        if SpawnUnit:InAir() == false and SpawnUnit:GetVelocityKMH() < 1 then
+        if (SpawnUnit:InAir() == false and SpawnUnit:GetVelocityKMH() < 1) or IsHelo then
-          local NewVec2 = SpawnUnit:GetVec2()
+          local NewVec2 = SpawnUnit:GetVec2() or {x=0, y=0}
          if (Stamp.Vec2.x == NewVec2.x and Stamp.Vec2.y == NewVec2.y) or (SpawnUnit:GetLife() <= 1) then
            -- If the plane is not moving or dead , and is on the ground, assign it with a timestamp...
            if Stamp.Time + self.SpawnCleanUpInterval < timer.getTime() then
@@ -3409,8 +3413,8 @@ function SPAWN:_SpawnCleanUpScheduler()
          Stamp.Time = nil
        end
      else
-        if SpawnUnit:InAir() == false then
+        if SpawnUnit:InAir() == false or (IsHelo and SpawnUnit:GetLife() <= 1) then
-          Stamp.Vec2 = SpawnUnit:GetVec2()
+          Stamp.Vec2 = SpawnUnit:GetVec2() or {x=0, y=0}
          if (SpawnUnit:GetVelocityKMH() < 1) then
            Stamp.Time = timer.getTime()
          end
--- a/Development/Moose/Core/SpawnStatic.lua
+++ b/Development/Moose/Core/SpawnStatic.lua
@@ -57,15 +57,15 @@
 -- @extends Core.Base#BASE
--- Allows to spawn dynamically new @{Static}s into your mission.
+--- Allows to spawn dynamically new @{Wrapper.Static}s into your mission.
 -- 
 -- Through creating a copy of an existing static object template as defined in the Mission Editor (ME), SPAWNSTATIC can retireve the properties of the defined static object template (like type, category etc), 
 -- and "copy" these properties to create a new static object and place it at the desired coordinate.
 -- 
-- New spawned @{Static}s get **the same name** as the name of the template Static, or gets the given name when a new name is provided at the Spawn method.  
+-- New spawned @{Wrapper.Static}s get **the same name** as the name of the template Static, or gets the given name when a new name is provided at the Spawn method.  
-- By default, spawned @{Static}s will follow a naming convention at run-time:
+-- By default, spawned @{Wrapper.Static}s will follow a naming convention at run-time:
 -- 
--   * Spawned @{Static}s will have the name _StaticName_#_nnn_, where _StaticName_ is the name of the **Template Static**, and _nnn_ is a **counter from 0 to 99999**.
+--   * Spawned @{Wrapper.Static}s will have the name _StaticName_#_nnn_, where _StaticName_ is the name of the **Template Static**, and _nnn_ is a **counter from 0 to 99999**.
 -- 
 -- # SPAWNSTATIC Constructors
 -- 
@@ -106,7 +106,7 @@
 --   * @{#SPAWNSTATIC.Spawn}(Heading, NewName) spawns the static with the set parameters. Optionally, heading and name can be given. The name **must be unique**!
 --   * @{#SPAWNSTATIC.SpawnFromCoordinate}(Coordinate, Heading, NewName) spawn the static at the given coordinate. Optionally, heading and name can be given. The name **must be unique**!
 --   * @{#SPAWNSTATIC.SpawnFromPointVec2}(PointVec2, Heading, NewName) spawns the static at a POINT_VEC2 coordinate. Optionally, heading and name can be given. The name **must be unique**!
--   * @{#SPAWNSTATIC.SpawnFromZone}(Zone, Heading, NewName) spawns the static at the center of a @{Zone}. Optionally, heading and name can be given. The name **must be unique**!
+--   * @{#SPAWNSTATIC.SpawnFromZone}(Zone, Heading, NewName) spawns the static at the center of a @{Core.Zone}. Optionally, heading and name can be given. The name **must be unique**!
 --  
 -- @field #SPAWNSTATIC SPAWNSTATIC
 -- 
@@ -131,7 +131,7 @@ SPAWNSTATIC = {
 -- @field #number mass Cargo mass in kg.
 -- @field #boolean canCargo Static can be a cargo.
--- Creates the main object to spawn a @{Static} defined in the mission editor (ME).
+--- Creates the main object to spawn a @{Wrapper.Static} defined in the mission editor (ME).
 -- @param #SPAWNSTATIC self
 -- @param #string SpawnTemplateName Name of the static object in the ME. Each new static will have the name starting with this prefix.
 -- @param DCS#country.id SpawnCountryID (Optional) The ID of the country.
@@ -158,7 +158,7 @@ function SPAWNSTATIC:NewFromStatic(SpawnTemplateName, SpawnCountryID)
  return self
 end
--- Creates the main object to spawn a @{Static} given a template table.
+--- Creates the main object to spawn a @{Wrapper.Static} given a template table.
 -- @param #SPAWNSTATIC self
 -- @param #table SpawnTemplate Template used for spawning.
 -- @param DCS#country.id CountryID The ID of the country. Default `country.id.USA`.
@@ -174,7 +174,7 @@ function SPAWNSTATIC:NewFromTemplate(SpawnTemplate, CountryID)
  return self
 end
--- Creates the main object to spawn a @{Static} from a given type.
+--- Creates the main object to spawn a @{Wrapper.Static} from a given type.
 -- NOTE that you have to init many other parameters as spawn coordinate etc.
 -- @param #SPAWNSTATIC self
 -- @param #string StaticType Type of the static.
@@ -275,7 +275,7 @@ end
 --- Initialize as dead.
 -- @param #SPAWNSTATIC self
-- @param #boolean IsCargo If true, this static is dead.
+-- @param #boolean IsDead If true, this static is dead.
 -- @return #SPAWNSTATIC self
 function SPAWNSTATIC:InitDead(IsDead)
  self.InitStaticDead=IsDead
@@ -336,7 +336,7 @@ function SPAWNSTATIC:Spawn(Heading, NewName)
 end
--- Creates a new @{Static} from a POINT_VEC2.
+--- Creates a new @{Wrapper.Static} from a POINT_VEC2.
 -- @param #SPAWNSTATIC self
 -- @param Core.Point#POINT_VEC2 PointVec2 The 2D coordinate where to spawn the static.
 -- @param #number Heading The heading of the static, which is a number in degrees from 0 to 360.
@@ -352,7 +352,7 @@ function SPAWNSTATIC:SpawnFromPointVec2(PointVec2, Heading, NewName)
 end
--- Creates a new @{Static} from a COORDINATE.
+--- Creates a new @{Wrapper.Static} from a COORDINATE.
 -- @param #SPAWNSTATIC self
 -- @param Core.Point#COORDINATE Coordinate The 3D coordinate where to spawn the static.
 -- @param #number Heading (Optional) Heading The heading of the static in degrees. Default is 0 degrees.
@@ -375,7 +375,7 @@ function SPAWNSTATIC:SpawnFromCoordinate(Coordinate, Heading, NewName)
 end
--- Creates a new @{Static} from a @{Zone}.
+--- Creates a new @{Wrapper.Static} from a @{Core.Zone}.
 -- @param #SPAWNSTATIC self
 -- @param Core.Zone#ZONE_BASE Zone The Zone where to spawn the static.
 -- @param #number Heading (Optional)The heading of the static in degrees. Default is the heading of the template.
@@ -467,7 +467,7 @@ function SPAWNSTATIC:_SpawnStatic(Template, CountryID)
  self:T(Template)
  -- Add static to the game.
-  local Static=nil
+  local Static=nil  --DCS#StaticObject
  if self.InitFarp then
@@ -487,6 +487,17 @@ function SPAWNSTATIC:_SpawnStatic(Template, CountryID)
    -- ED's dirty way to spawn FARPS.
    Static=coalition.addGroup(CountryID, -1, TemplateGroup)
    -- Currently DCS 2.8 does not trigger birth events if FAPRS are spawned!
    -- We create such an event. The airbase is registered in Core.Event
    local Event = {
      id = EVENTS.Birth,
      time = timer.getTime(),
      initiator = Static
      }
    -- Create BIRTH event.
    world.onEvent(Event)
  else
    self:T("Spawning Static")        
    self:T2({Template=Template})  
--- a/Development/Moose/Core/Spot.lua
+++ b/Development/Moose/Core/Spot.lua
@@ -249,8 +249,10 @@ do
    local RecceDcsUnit = self.Recce:GetDCSObject()
-    self.SpotIR = Spot.createInfraRed( RecceDcsUnit, { x = 0, y = 2, z = 0 }, Target:GetPointVec3():AddY(1):GetVec3() )
+    local relativespot = self.relstartpos or { x = 0, y = 2, z = 0 }
-    self.SpotLaser = Spot.createLaser( RecceDcsUnit, { x = 0, y = 2, z = 0 }, Target:GetPointVec3():AddY(1):GetVec3(), LaserCode )
+    
    self.SpotIR = Spot.createInfraRed( RecceDcsUnit, relativespot, Target:GetPointVec3():AddY(1):GetVec3() )
    self.SpotLaser = Spot.createLaser( RecceDcsUnit, relativespot, Target:GetPointVec3():AddY(1):GetVec3(), LaserCode )
    if Duration then
      self.ScheduleID = self.LaseScheduler:Schedule( self, StopLase, {self}, Duration )
@@ -368,4 +370,16 @@ do
    return self.Lasing
  end
  --- Set laser start position relative to the lasing unit.
  -- @param #SPOT self
  -- @param #table position Start position of the laser relative to the lasing unit. Default is { x = 0, y = 2, z = 0 }
  -- @return #SPOT self
  -- @usage
  --      -- Set lasing position to be the position of the optics of the Gazelle M:
  --      myspot:SetRelativeStartPosition({ x = 1.7, y = 1.2, z = 0 })
  function SPOT:SetRelativeStartPosition(position)
    self.relstartpos = position or { x = 0, y = 2, z = 0 }
    return self
  end
 end
--- a/Development/Moose/Core/TextAndSound.lua
+++ b/Development/Moose/Core/TextAndSound.lua
@@ -0,0 +1,202 @@
 --- **Core** - A Moose GetText system.
 --
 -- ===
 -- 
 -- ## Main Features:
 --
 --    * A GetText for Moose
 --    * Build a set of localized text entries, alongside their sounds and subtitles
 --    * Aimed at class developers to offer localizable language support
 --
 -- ===
 --
 -- ## Example Missions:
 -- 
 -- Demo missions can be found on [github](https://github.com/FlightControl-Master/MOOSE_MISSIONS/tree/develop/).
 --       
 -- ===
 -- 
 -- ### Author: **applevangelist**
 -- ## Date: April 2022
 -- 
 -- ===
 -- 
 -- @module Core.TextAndSound
 -- @image MOOSE.JPG
 --- Text and Sound class.
 -- @type TEXTANDSOUND
 -- @field #string ClassName Name of this class.
 -- @field #string version Versioning.
 -- @field #string lid LID for log entries.
 -- @field #string locale Default locale of this object.
 -- @field #table entries Table of entries.
 -- @field #string textclass Name of the class the texts belong to.
 -- @extends Core.Base#BASE
 ---
 --
 -- @field #TEXTANDSOUND
 TEXTANDSOUND = {
  ClassName = "TEXTANDSOUND",
  version = "0.0.1",
  lid = "",
  locale = "en",
  entries = {},
  textclass = "",
 }
 --- Text and Sound entry.
 -- @type TEXTANDSOUND.Entry
 -- @field #string Classname Name of the class this entry is for.
 -- @field #string Locale Locale of this entry, defaults to "en".
 -- @field #table Data The list of entries.
 --- Text and Sound data
 -- @type TEXTANDSOUND.Data
 -- @field #string ID ID of this entry for retrieval.
 -- @field #string Text Text of this entry.
 -- @field #string Soundfile (optional) Soundfile File name of the corresponding sound file.
 -- @field #number Soundlength (optional)  Length of the sound file in seconds.
 -- @field #string Subtitle (optional)  Subtitle for the sound file.
 --- Instantiate a new object
 -- @param #TEXTANDSOUND self
 -- @param #string ClassName Name of the class this instance is providing texts for.
 -- @param #string Defaultlocale (Optional) Default locale of this instance, defaults to "en". 
 -- @return #TEXTANDSOUND self
 function TEXTANDSOUND:New(ClassName,Defaultlocale)
    -- Inherit everything from BASE class.
  local self=BASE:Inherit(self, BASE:New())
  -- Set some string id for output to DCS.log file.
  self.lid=string.format("%s (%s) | ", self.ClassName, self.version)
  self.locale = Defaultlocale or (_SETTINGS:GetLocale() or "en")
  self.textclass = ClassName or "none"
  self.entries = {}
  local initentry = {} -- #TEXTANDSOUND.Entry
  initentry.Classname = ClassName
  initentry.Data = {}
  initentry.Locale = self.locale
  self.entries[self.locale] = initentry
  self:I(self.lid .. "Instantiated.")
  self:T({self.entries[self.locale]})
  return self
 end
 --- Add an entry
 -- @param #TEXTANDSOUND self
 -- @param #string Locale Locale to set for this entry, e.g. "de".
 -- @param #string ID Unique(!) ID of this entry under this locale (i.e. use the same ID to get localized text for the entry in another language).
 -- @param #string Text Text for this entry.
 -- @param #string Soundfile (Optional) Sound file name for this entry.
 -- @param #number Soundlength (Optional) Length of the sound file in seconds.
 -- @param #string Subtitle (Optional) Subtitle to be used alongside the sound file.
 -- @return #TEXTANDSOUND self
 function TEXTANDSOUND:AddEntry(Locale,ID,Text,Soundfile,Soundlength,Subtitle)
  self:T(self.lid .. "AddEntry")
  local locale = Locale or self.locale
  local dataentry = {} -- #TEXTANDSOUND.Data
  dataentry.ID = ID or "1"
  dataentry.Text = Text or "none"
  dataentry.Soundfile = Soundfile
  dataentry.Soundlength = Soundlength or 0
  dataentry.Subtitle = Subtitle
  if not self.entries[locale] then
    local initentry = {} -- #TEXTANDSOUND.Entry
    initentry.Classname = self.textclass -- class name entry
    initentry.Data = {} -- data array
    initentry.Locale = locale -- default locale
    self.entries[locale] = initentry
  end
  self.entries[locale].Data[ID] = dataentry
  self:T({self.entries[locale].Data})
  return self
 end
 --- Get an entry
 -- @param #TEXTANDSOUND self
 -- @param #string ID The unique ID of the data to be retrieved.
 -- @param #string Locale (Optional) The locale of the text to be retrieved - defauls to default locale set with `New()`.
 -- @return #string Text Text or nil if not found and no fallback.
 -- @return #string Soundfile Filename or nil if not found and no fallback.
 -- @return #string Soundlength Length of the sound or 0 if not found and no fallback.
 -- @return #string Subtitle Text for subtitle or nil if not found and no fallback.
 function TEXTANDSOUND:GetEntry(ID,Locale)
  self:T(self.lid .. "GetEntry")
  local locale = Locale or self.locale
  if not self.entries[locale] then
    -- fall back to default "en"
    locale = self.locale
  end
  local Text,Soundfile,Soundlength,Subtitle = nil, nil, 0, nil
  if self.entries[locale] then
    if self.entries[locale].Data then
      local data = self.entries[locale].Data[ID] -- #TEXTANDSOUND.Data
      if data then 
        Text = data.Text
        Soundfile = data.Soundfile
        Soundlength = data.Soundlength
        Subtitle = data.Subtitle
      elseif self.entries[self.locale].Data[ID] then
        -- no matching entry, try default
        local data = self.entries[self.locale].Data[ID]
        Text = data.Text
        Soundfile = data.Soundfile
        Soundlength = data.Soundlength
        Subtitle = data.Subtitle
      end
    end
  else
    return nil, nil, 0, nil
  end
  return Text,Soundfile,Soundlength,Subtitle
 end
 --- Get the default locale of this object
 -- @param #TEXTANDSOUND self
 -- @return #string locale
 function TEXTANDSOUND:GetDefaultLocale()
  self:T(self.lid .. "GetDefaultLocale")
  return self.locale
 end
 --- Set default locale of this object
 -- @param #TEXTANDSOUND self
 -- @param #string locale
 -- @return #TEXTANDSOUND self 
 function TEXTANDSOUND:SetDefaultLocale(locale)
  self:T(self.lid .. "SetDefaultLocale")
  self.locale = locale or "en"
  return self
 end
 --- Check if a locale exists
 -- @param #TEXTANDSOUND self
 -- @return #boolean outcome
 function TEXTANDSOUND:HasLocale(Locale)
  self:T(self.lid .. "HasLocale")
  return self.entries[Locale] and true or false
 end
 --- Flush all entries to the log
 -- @param #TEXTANDSOUND self
 -- @return #TEXTANDSOUND self
 function TEXTANDSOUND:FlushToLog()
  self:I(self.lid .. "Flushing entries:")
  local text = string.format("Textclass: %s | Default Locale: %s",self.textclass, self.locale)
  for _,_entry in pairs(self.entries) do
    local entry = _entry -- #TEXTANDSOUND.Entry
    local text = string.format("Textclassname: %s | Locale: %s",entry.Classname, entry.Locale)
    self:I(text)
    for _ID,_data in pairs(entry.Data) do
      local data = _data -- #TEXTANDSOUND.Data
      local text = string.format("ID: %s\nText: %s\nSoundfile: %s With length: %d\nSubtitle: %s",tostring(_ID), data.Text or "none",data.Soundfile or "none",data.Soundlength or 0,data.Subtitle or "none")
      self:I(text)
    end
  end
  return self
 end
 ----------------------------------------------------------------
 -- End TextAndSound
 ----------------------------------------------------------------
--- a/Development/Moose/Core/Timer.lua
+++ b/Development/Moose/Core/Timer.lua
@@ -34,8 +34,6 @@
 --
 -- ===
 --
 -- ![Banner Image](..\Presentations\Timer\TIMER_Main.jpg)
 --
 -- # The TIMER Concept
 -- 
 -- The TIMER class is the little sister of the @{Core.Scheduler#SCHEDULER} class. It does the same thing but is a bit easier to use and has less overhead. It should be sufficient in many cases.
@@ -107,19 +105,17 @@ TIMER = {
 --- Timer ID.
 _TIMERID=0
 --- Timer data base.
 --_TIMERDB={}
 --- TIMER class version.
 -- @field #string version
-TIMER.version="0.1.1"
+TIMER.version="0.1.2"
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- TODO list
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
-- TODO: A lot.
+-- TODO: Randomization.
-- TODO: Write docs.
+-- TODO: Pause/unpause.
 -- DONE: Write docs.
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- Constructor
@@ -156,13 +152,10 @@ function TIMER:New(Function, ...)
  -- Log id.
  self.lid=string.format("TIMER UID=%d | ", self.uid)
  -- Add to DB.
  --_TIMERDB[self.uid]=self
  return self
 end
--- Create a new TIMER object.
+--- Start TIMER object.
 -- @param #TIMER self
 -- @param #number Tstart Relative start time in seconds.
 -- @param #number dT Interval between function calls in seconds. If not specified `nil`, the function is called only once.
@@ -174,7 +167,7 @@ function TIMER:Start(Tstart, dT, Duration)
  local Tnow=timer.getTime()
  -- Start time in sec.
-  self.Tstart=Tstart and Tnow+Tstart or Tnow+0.001  -- one millisecond delay if Tstart=nil
+  self.Tstart=Tstart and Tnow+math.max(Tstart, 0.001) or Tnow+0.001  -- one millisecond delay if Tstart=nil
  -- Set time interval.
  self.dT=dT
@@ -199,6 +192,20 @@ function TIMER:Start(Tstart, dT, Duration)
  return self
 end
 --- Start TIMER object if a condition is met. Useful for e.g. debugging.
 -- @param #TIMER self
 -- @param #boolean Condition Must be true for the TIMER to start
 -- @param #number Tstart Relative start time in seconds.
 -- @param #number dT Interval between function calls in seconds. If not specified `nil`, the function is called only once.
 -- @param #number Duration Time in seconds for how long the timer is running. If not specified `nil`, the timer runs forever or until stopped manually by the `TIMER:Stop()` function.
 -- @return #TIMER self
 function TIMER:StartIf(Condition,Tstart, dT, Duration)
  if Condition then
    self:Start(Tstart, dT, Duration)
  end
  return self
 end
 --- Stop the timer by removing the timer function.
 -- @param #TIMER self
 -- @param #number Delay (Optional) Delay in seconds, before the timer is stopped.
@@ -220,9 +227,6 @@ function TIMER:Stop(Delay)
      -- Not running any more.
      self.isrunning=false
      -- Remove DB entry.
      --_TIMERDB[self.uid]=nil
    end
  end
@@ -239,6 +243,15 @@ function TIMER:SetMaxFunctionCalls(Nmax)
  return self
 end
 --- Set time interval. Can also be set when the timer is already running and is applied after the next function call.
 -- @param #TIMER self
 -- @param #number dT Time interval in seconds.
 -- @return #TIMER self
 function TIMER:SetTimeInterval(dT)
  self.dT=dT
  return self
 end
 --- Check if the timer has been started and was not stopped.
 -- @param #TIMER self
 -- @return #boolean If `true`, the timer is running.
--- a/Development/Moose/Core/UserFlag.lua
+++ b/Development/Moose/Core/UserFlag.lua
@@ -77,7 +77,6 @@ do -- UserFlag
    return self
  end
  --- Get the userflag Number.
  -- @param #USERFLAG self
  -- @return #number Number The number value to be checked if it is the same as the userflag.
@@ -90,8 +89,6 @@ do -- UserFlag
    return trigger.misc.getUserFlag( self.UserFlagName )
  end
  --- Check if the userflag has a value of Number.
  -- @param #USERFLAG self
  -- @param #number Number The number value to be checked if it is the same as the userflag.
--- a/Development/Moose/Core/Velocity.lua
+++ b/Development/Moose/Core/Velocity.lua
@@ -95,8 +95,7 @@ do -- Velocity
    return UTILS.MpsToMiph( self.Velocity )
  end
-  
+  --- Get the velocity in text, according the player @{Core.Settings}.
  --- Get the velocity in text, according the player @{Settings}.
  -- @param #VELOCITY self
  -- @param Core.Settings#SETTINGS Settings
  -- @return #string The velocity in text. 
@@ -113,11 +112,11 @@ do -- Velocity
    end
  end
-  --- Get the velocity in text, according the player or default @{Settings}.
+  --- Get the velocity in text, according the player or default @{Core.Settings}.
  -- @param #VELOCITY self
  -- @param Wrapper.Controllable#CONTROLLABLE Controllable
  -- @param Core.Settings#SETTINGS Settings
-  -- @return #string The velocity in text according the player or default @{Settings}
+  -- @return #string The velocity in text according the player or default @{Core.Settings}
  function VELOCITY:ToString( VelocityGroup, Settings ) -- R2.3
    self:F( { Group = VelocityGroup and VelocityGroup:GetName() } )
    local Settings = Settings or ( VelocityGroup and _DATABASE:GetPlayerSettings( VelocityGroup:GetPlayerName() ) ) or _SETTINGS
@@ -134,7 +133,7 @@ do -- VELOCITY_POSITIONABLE
  --- # VELOCITY_POSITIONABLE class, extends @{Core.Base#BASE}
  -- 
-  -- VELOCITY_POSITIONABLE monitors the speed of an @{Positionable} in the simulation, which can be expressed in various formats according the Settings.
+  -- @{#VELOCITY_POSITIONABLE} monitors the speed of a @{Wrapper.Positionable#POSITIONABLE} in the simulation, which can be expressed in various formats according the Settings.
  -- 
  -- ## 1. VELOCITY_POSITIONABLE constructor
  --   
@@ -178,9 +177,9 @@ do -- VELOCITY_POSITIONABLE
    return UTILS.MpsToMiph( self.Positionable:GetVelocityMPS() or 0 )
  end
-  --- Get the velocity in text, according the player or default @{Settings}.
+  --- Get the velocity in text, according the player or default @{Core.Settings}.
  -- @param #VELOCITY_POSITIONABLE self
-  -- @return #string The velocity in text according the player or default @{Settings}
+  -- @return #string The velocity in text according the player or default @{Core.Settings}
  function VELOCITY_POSITIONABLE:ToString() -- R2.3
    self:F( { Group = self.Positionable and self.Positionable:GetName() } )
    local Settings = Settings or ( self.Positionable and _DATABASE:GetPlayerSettings( self.Positionable:GetPlayerName() ) ) or _SETTINGS
--- a/Development/Moose/Core/Zone.lua
+++ b/Development/Moose/Core/Zone.lua
--- a/Development/Moose/Core/Zone_Detection.lua
+++ b/Development/Moose/Core/Zone_Detection.lua
@@ -1,6 +1,8 @@
 --- **Core** - The ZONE_DETECTION class, defined by a zone name, a detection object and a radius.
 -- @module Core.Zone_Detection
 -- @image MOOSE.JPG
--- The ZONE_DETECTION class, defined by a zone name, a detection object and a radius.
+--- @type ZONE_DETECTION
 -- @type ZONE_DETECTION
 -- @field DCS#Vec2 Vec2 The current location of the zone.
 -- @field DCS#Distance Radius The radius of the zone.
 -- @extends #ZONE_BASE
@@ -49,7 +51,6 @@ function ZONE_DETECTION:BoundZone( Points, CountryID, UnBound )
  local Angle
  local RadialBase = math.pi*2
  --
  for Angle = 0, 360, (360 / Points ) do
    local Radial = Angle * RadialBase / 360
    Point.x = Vec2.x + math.cos( Radial ) * self:GetRadius()
--- a/Development/Moose/DCS.lua
+++ b/Development/Moose/DCS.lua
@@ -1,4 +1,6 @@
--- **DCS API** Prototypes
+--- **DCS API** Prototypes.
 -- 
 -- ===
 -- 
 -- See the [Simulator Scripting Engine Documentation](https://wiki.hoggitworld.com/view/Simulator_Scripting_Engine_Documentation) on Hoggit for further explanation and examples.
 -- 
@@ -306,6 +308,11 @@ do -- country
  -- @field Argentinia
  -- @field Cyprus
  -- @field Slovenia
  -- @field BOLIVIA
  -- @field GHANA
  -- @field NIGERIA
  -- @field PERU
  -- @field ECUADOR
  country = {} --#country
@@ -334,9 +341,23 @@ do -- coalition
  -- @field RED
  -- @field BLUE
-  --- @function [parent=#coalition] getCountryCoalition
+  --- Get country coalition.
-  -- @param #number countryId
+  -- @function [parent=#coalition] getCountryCoalition
-  -- @return #number coalitionId
+  -- @param #number countryId Country ID.
  -- @return #number coalitionId Coalition ID.
  --- Dynamically spawns a group. See [hoggit](https://wiki.hoggitworld.com/view/DCS_func_addGroup)
  -- @function [parent=#coalition] addGroup
  -- @param #number countryId Id of the country.
  -- @param #number groupCategory Group category. Set -1 for spawning FARPS.
  -- @param #table groupData Group data table.
  -- @return DCS#Group The spawned Group object.
  --- Dynamically spawns a static object. See [hoggit](https://wiki.hoggitworld.com/view/DCS_func_addGroup)
  -- @function [parent=#coalition] addStaticObject
  -- @param #number countryId Id of the country.
  -- @param #table groupData Group data table.
  -- @return DCS#Static The spawned static object.
  coalition = {} -- #coalition
@@ -471,6 +492,22 @@ do -- Types
  --@field #boolean lateActivated
  --@field #boolean uncontrolled
  --- DCS template data structure.
  -- @type Template
  -- @field #boolean uncontrolled Aircraft is uncontrolled.
  -- @field #boolean lateActivation Group is late activated.
  -- @field #number x 2D Position on x-axis in meters.
  -- @field #number y 2D Position on y-axis in meters.
  -- @field #table units Unit list.
  -- 
  --- Unit data structure.
  --@type Template.Unit
  --@field #string name Name of the unit.
  --@field #number x
  --@field #number y
  --@field #number alt
 end --
@@ -491,7 +528,6 @@ do -- Object
  -- @field SCENERY
  -- @field CARGO
  --- @type Object.Desc
  -- @extends #Desc
  -- @field #number life initial life level
@@ -501,6 +537,10 @@ do -- Object
  -- @param #Object self
  -- @return #boolean
  --- @function [parent=#Object] isActive
  -- @param #Object self
  -- @return #boolean
  --- @function [parent=#Object] destroy
  -- @param #Object self
@@ -1133,6 +1173,11 @@ do -- Unit
  -- @param #Unit self
  -- @return #Unit.Ammo
  --- Returns the number of infantry that can be embark onto the aircraft. Only returns a value if run on airplanes or helicopters. Returns nil if run on ground or ship units.
  -- @function [parent=#Unit] getDescentCapacity
  -- @param #Unit self
  -- @return #number Number of soldiers that embark.
  --- Returns the unit sensors. 
  -- @function [parent=#Unit] getSensors
  -- @param #Unit self
@@ -1263,6 +1308,42 @@ do -- Group
 end -- Group
 do -- StaticObject
  --- Represents a static object.
  -- @type StaticObject
  -- @extends DCS#Object
  --- Returns the static object.
  -- @function [parent=#StaticObject] getByName
  -- @param #string name Name of the static object.
  -- @return #StaticObject
  StaticObject = {} --#StaticObject
 end
 do --Event
  --- Event structure. Note that present fields depend on type of event.
  -- @type Event
  -- @field #number id Event ID.
  -- @field #number time Mission time in seconds.
  -- @field DCS#Unit initiator Unit initiating the event.
  -- @field DCS#Unit target Target unit.
  -- @field DCS#Airbase place Airbase.
  -- @field number subPlace Subplace. Unknown and often just 0.
  -- @field #string weapon_name Weapoin name.
  -- @field #number idx Mark ID.
  -- @field #number coalition Coalition ID.
  -- @field #number groupID Group ID, *e.g.* of group that added mark point.
  -- @field #string text Text, *e.g.* of mark point.
  -- @field DCS#Vec3 pos Position vector, *e.g.* of mark point.
  -- @field #string comment Comment, *e.g.* LSO score.
  Event={} --#Event
 end
 do -- AI
@@ -1350,7 +1431,9 @@ do -- AI
  --- @type AI.Option.Ground
  -- @field #AI.Option.Ground.id                    id
  -- @field #AI.Option.Ground.val                   val
-  
+  -- @field #AI.Option.Ground.mid                   mid
  -- @field #AI.Option.Ground.mval                  mval
  -- 
  --- @type AI.Option.Naval
  -- @field #AI.Option.Naval.id                     id
  -- @field #AI.Option.Naval.val                    val
@@ -1373,6 +1456,11 @@ do -- AI
  -- @field PROHIBIT_AG
  -- @field MISSILE_ATTACK
  -- @field PROHIBIT_WP_PASS_REPORT
  -- @field OPTION_RADIO_USAGE_CONTACT
  -- @field OPTION_RADIO_USAGE_ENGAGE
  -- @field OPTION_RADIO_USAGE_KILL
  -- @field JETT_TANKS_IF_EMPTY
  -- @field FORCED_ATTACK
  --- @type AI.Option.Air.id.FORMATION
  -- @field LINE_ABREAST
@@ -1442,19 +1530,35 @@ do -- AI
  --- @type AI.Option.Ground.id
  -- @field NO_OPTION
  -- @field ROE @{#AI.Option.Ground.val.ROE}
  -- @field FORMATION
  -- @field DISPERSE_ON_ATTACK true or false
  -- @field ALARM_STATE @{#AI.Option.Ground.val.ALARM_STATE}
  -- @field ENGAGE_AIR_WEAPONS
  -- @field AC_ENGAGEMENT_RANGE_RESTRICTION
  --- @type AI.Option.Ground.mid -- Moose added
  -- @field RESTRICT_AAA_MIN        27
  -- @field RESTRICT_AAA_MAX        29
  -- @field RESTRICT_TARGETS @{#AI.Option.Ground.mval.ENGAGE_TARGETS}  28
  --- @type AI.Option.Ground.val
  -- @field #AI.Option.Ground.val.ROE               ROE
  -- @field #AI.Option.Ground.val.ALARM_STATE       ALARM_STATE
  -- @field #AI.Option.Ground.val.ENGAGE_TARGETS    RESTRICT_TARGETS
  --- @type AI.Option.Ground.val.ROE
  -- @field OPEN_FIRE
  -- @field RETURN_FIRE
  -- @field WEAPON_HOLD
  --- @type AI.Option.Ground.mval -- Moose added
  -- @field #AI.Option.Ground.mval.ENGAGE_TARGETS   ENGAGE_TARGETS
  --- @type AI.Option.Ground.mval.ENGAGE_TARGETS -- Moose added
  -- @field ANY_TARGET -- 0
  -- @field AIR_UNITS_ONLY -- 1
  -- @field GROUND_UNITS_ONLY -- 2
  --- @type AI.Option.Ground.val.ALARM_STATE
  -- @field AUTO
  -- @field GREEN
--- a/Development/Moose/Functional/ATC_Ground.lua
+++ b/Development/Moose/Functional/ATC_Ground.lua
--- a/Development/Moose/Functional/Artillery.lua
+++ b/Development/Moose/Functional/Artillery.lua
@@ -30,7 +30,7 @@
 -- ### Contributions: [FlightControl](https://forums.eagle.ru/member.php?u=89536)
 --
 -- ====
-- @module Functional.Arty
+-- @module Functional.Artillery
 -- @image Artillery.JPG
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
@@ -108,7 +108,7 @@
 --- Enables mission designers easily to assign targets for artillery units. Since the implementation is based on a Finite State Model (FSM), the mission designer can
 -- interact with the process at certain events or states.
 --
-- A new ARTY object can be created with the @{#ARTY.New}(*group*) contructor.
+-- A new ARTY object can be created with the @{#ARTY.New}(*group*) constructor.
 -- The parameter *group* has to be a MOOSE Group object and defines ARTY group.
 --
 -- The ARTY FSM process can be started by the @{#ARTY.Start}() command.
@@ -146,7 +146,7 @@
 -- When a new target is assigned via the @{#ARTY.AssignTargetCoord}() function (see below), the **NewTarget** event is triggered.
 --
 -- ## Assigning Targets
-- Assigning targets is a central point of the ARTY class. Multiple targets can be assigned simultanioulsly and are put into a queue.
+-- Assigning targets is a central point of the ARTY class. Multiple targets can be assigned simultaneously and are put into a queue.
 -- Of course, targets can be added at any time during the mission. For example, once they are detected by a reconnaissance unit.
 --
 -- In order to add a target, the function @{#ARTY.AssignTargetCoord}(*coord*, *prio*, *radius*, *nshells*, *maxengage*, *time*, *weapontype*, *name*) has to be used.
@@ -161,7 +161,7 @@
 -- * *maxengage*: Number of times a target is engaged.
 -- * *time*: Time of day the engagement is schedule in the format "hh:mm:ss" for hh=hours, mm=minutes, ss=seconds.
 -- For example "10:15:35". In the case the attack will be executed at a quarter past ten in the morning at the day the mission started.
-- If the engagement should start on the following day the format can be specified as "10:15:35+1", where the +1 denots the following day.
+-- If the engagement should start on the following day the format can be specified as "10:15:35+1", where the +1 denotes the following day.
 -- This is useful for longer running missions or if the mission starts at 23:00 hours and the attack should be scheduled at 01:00 hours on the following day.
 -- Of course, later days are also possible by appending "+2", "+3", etc.
 -- **Note** that the time has to be given as a string. So the enclosing quotation marks "" are important.
@@ -179,7 +179,7 @@
 -- Let's first consider the case that none of the targets is scheduled to be executed at a certain time (*time*=nil).
 -- The ARTY group will first engage the target with higher priority (*prio*=10). After the engagement is finished, the target with lower priority is attacked.
 -- This is because the target with lower prio has been attacked one time less. After the attack on the lower priority task is finished and both targets
-- have been engaged equally often, the target with the higher priority is engaged again. This coninues until a target has engaged three times.
+-- have been engaged equally often, the target with the higher priority is engaged again. This continues until a target has engaged three times.
 -- Once the maximum number of engagements is reached, the target is deleted from the queue.
 --
 -- In other words, the queue is first sorted with respect to the number of engagements and targets with the same number of engagements are sorted with
@@ -190,7 +190,7 @@
 -- As mentioned above, targets can be engaged at a specific time of the day via the *time* parameter.
 --
 -- If the *time* parameter is specified for a target, the first engagement of that target will happen at that time of the day and not before.
-- This also applies when multiple engagements are requested via the *maxengage* parameter. The first attack will not happen before the specifed time.
+-- This also applies when multiple engagements are requested via the *maxengage* parameter. The first attack will not happen before the specified time.
 -- When that timed attack is finished, the *time* parameter is deleted and the remaining engagements are carried out in the same manner as for untimed targets (described above).
 --
 -- Of course, it can happen that a scheduled task should be executed at a time, when another target is already under attack.
@@ -201,7 +201,7 @@
 --
 -- ## Determining the Amount of Ammo
 --
-- In order to determin when a unit is out of ammo and possible initiate the rearming process it is necessary to know which types of weapons have to be counted.
+-- In order to determine when a unit is out of ammo and possible initiate the rearming process it is necessary to know which types of weapons have to be counted.
 -- For most artillery unit types, this is simple because they only have one type of weapon and hence ammunition.
 --
 -- However, there are more complex scenarios. For example, naval units carry a big arsenal of different ammunition types ranging from various cannon shell types
@@ -217,7 +217,7 @@
 -- **Note** that the default parameters "weapons.shells", "weapons.nurs", "weapons.missiles" **should in priciple** capture all the corresponding ammo types.
 -- However, the logic searches for the string "weapon.missies" in the ammo type. Especially for missiles, this string is often not contained in the ammo type descriptor.
 --
-- One way to determin which types of ammo the unit carries, one can use the debug mode of the arty class via @{#ARTY.SetDebugON}().
+-- One way to determine which types of ammo the unit carries, one can use the debug mode of the arty class via @{#ARTY.SetDebugON}().
 -- In debug mode, the all ammo types of the group are printed to the monitor as message and can be found in the DCS.log file.
 --
 -- ## Employing Selected Weapons
@@ -274,7 +274,7 @@
 --
 -- ## Simulated Weapons
 --
-- In addtion to the standard weapons a group has available some special weapon types that are not possible to use in the native DCS environment are simulated.
+-- In addition to the standard weapons a group has available some special weapon types that are not possible to use in the native DCS environment are simulated.
 --
 -- ### Tactical Nukes
 --
@@ -283,9 +283,9 @@
 --
 -- By default, they group does not have any nukes available. To give the group the ability the function @{#ARTY.SetTacNukeShells}(*n*) can be used.
 -- This supplies the group with *n* nuclear shells, where *n* is restricted to the number of conventional shells the group can carry.
-- Note that the group must always have convenctional shells left in order to fire a nuclear shell.
+-- Note that the group must always have conventional shells left in order to fire a nuclear shell.
 --
-- The default explostion strength is 0.075 kilo tons TNT. The can be changed with the @{#ARTY.SetTacNukeWarhead}(*strength*), where *strength* is given in kilo tons TNT.
+-- The default explosion strength is 0.075 kilo tons TNT. The can be changed with the @{#ARTY.SetTacNukeWarhead}(*strength*), where *strength* is given in kilo tons TNT.
 --
 -- ### Illumination Shells
 --
@@ -301,12 +301,12 @@
 --
 -- ### Smoke Shells
 --
-- In a similar way to illumination shells, ARTY groups can also employ smoke shells. The numer of smoke shells the group has available is set by the function
+-- In a similar way to illumination shells, ARTY groups can also employ smoke shells. The number of smoke shells the group has available is set by the function
 -- @{#ARTY.SetSmokeShells}(*n*, *color*), where *n* is the number of shells and *color* defines the smoke color. Default is SMOKECOLOR.Red.
 --
 -- The weapon type to be used in the @{#ARTY.AssignTargetCoord}() function is *ARTY.WeaponType.SmokeShells*.
 --
-- The explosive shell the group fired is destroyed shortly before its impact on the ground and smoke of the speficied color is triggered at that position.
+-- The explosive shell the group fired is destroyed shortly before its impact on the ground and smoke of the specified color is triggered at that position.
 --
 --
 -- ## Assignments via Markers on F10 Map
@@ -320,15 +320,15 @@
 -- ### Target Assignments
 -- A new target can be assigned by writing **arty engage** in the marker text.
 -- This is followed by a **comma separated list** of (optional) keywords and parameters.
-- First, it is important to address the ARTY group or groups that should engage. This can be done in numrous ways. The keywords are *battery*, *alias*, *cluster*.
+-- First, it is important to address the ARTY group or groups that should engage. This can be done in numerous ways. The keywords are *battery*, *alias*, *cluster*.
 -- It is also possible to address all ARTY groups by the keyword *everyone* or *allbatteries*. These two can be used synonymously.
 -- **Note that**, if no battery is assigned nothing will happen.
 --
 -- * *everyone* or *allbatteries* The target is assigned to all batteries.
 -- * *battery* Name of the ARTY group that the target is assigned to. Note that **the name is case sensitive** and has to be given in quotation marks. Default is all ARTY groups of the right coalition.
 -- * *alias* Alias of the ARTY group that the target is assigned to. The alias is **case sensitive** and needs to be in quotation marks.
-- * *cluster* The cluster of ARTY groups that is addessed. Clusters can be defined by the function @{#ARTY.AddToCluster}(*clusters*). Names are **case sensitive** and need to be in quotation marks.
+-- * *cluster* The cluster of ARTY groups that is addressed. Clusters can be defined by the function @{#ARTY.AddToCluster}(*clusters*). Names are **case sensitive** and need to be in quotation marks.
-- * *key* A number to authorize the target assignment. Only specifing the correct number will trigger an engagement.
+-- * *key* A number to authorize the target assignment. Only specifying the correct number will trigger an engagement.
 -- * *time* Time for which which the engagement is schedules, e.g. 08:42. Default is as soon as possible.
 -- * *prio*  Priority of the engagement as number between 1 (high prio) and 100 (low prio). Default is 50, i.e. medium priority.
 -- * *shots* Number of shots (shells, rockets or missiles) fired at each engagement. Default is 5.
@@ -353,8 +353,8 @@
 --      arty engage, battery "Paladin Alpha", weapon nukes, shots 1, time 20:15
 --      arty engage, battery "Horwitzer 1", lldms 41:51:00N 41:47:58E
 --
-- Note that the keywords and parameters are *case insensitve*. Only exception are the battery, alias and cluster names.
+-- Note that the keywords and parameters are *case insensitive*. Only exception are the battery, alias and cluster names.
-- These must be exactly the same as the names of the goups defined in the mission editor or the aliases and cluster names defined in the script.
+-- These must be exactly the same as the names of the groups defined in the mission editor or the aliases and cluster names defined in the script.
 --
 -- ### Relocation Assignments
 --
@@ -363,11 +363,11 @@
 -- * *time* Time for which which the relocation/move is schedules, e.g. 08:42. Default is as soon as possible.
 -- * *speed* The speed in km/h the group will drive at. Default is 70% of its max possible speed.
 -- * *on road* Group will use mainly roads. Default is off, i.e. it will go in a straight line from its current position to the assigned coordinate.
-- * *canceltarget* Group will cancel all running firing engagements and immidiately start to move. Default is that group will wait until is current assignment is over.
+-- * *canceltarget* Group will cancel all running firing engagements and immediately start to move. Default is that group will wait until is current assignment is over.
 -- * *battery* Name of the ARTY group that the relocation is assigned to.
 -- * *alias* Alias of the ARTY group that the target is assigned to. The alias is **case sensitive** and needs to be in quotation marks.
-- * *cluster* The cluster of ARTY groups that is addessed. Clusters can be defined by the function @{#ARTY.AddToCluster}(*clusters*). Names are **case sensitive** and need to be in quotation marks.
+-- * *cluster* The cluster of ARTY groups that is addressed. Clusters can be defined by the function @{#ARTY.AddToCluster}(*clusters*). Names are **case sensitive** and need to be in quotation marks.
-- * *key* A number to authorize the target assignment. Only specifing the correct number will trigger an engagement.
+-- * *key* A number to authorize the target assignment. Only specifying the correct number will trigger an engagement.
 -- * *lldms* Specify the coordinates in Lat/Long degrees, minutes and seconds format. The actual location of the marker is unimportant. The group will move to the coordinates given in the lldms keyword.
 -- Format is DD:MM:SS[N,S] DD:MM:SS[W,E]. See example below.
 -- * *readonly* Marker cannot be deleted by users any more. Hence, assignment cannot be cancelled by removing the marker.
@@ -410,12 +410,12 @@
 --
 -- A few options can be set by marks. The corresponding keyword is **arty set**. This can be used to define the rearming place and group for a battery.
 --
-- To set the reamring place of a group at the marker position type
+-- To set the rearming place of a group at the marker position type
 --      arty set, battery "Paladin Alpha", rearming place
 --
 -- Setting the rearming group is independent of the position of the mark. Just create one anywhere on the map and type
 --      arty set, battery "Mortar Bravo", rearming group "Ammo Truck M818"
-- Note that the name of the rearming group has to be given in quotation marks and spellt exactly as the group name defined in the mission editor.
+-- Note that the name of the rearming group has to be given in quotation marks and spelt exactly as the group name defined in the mission editor.
 --
 -- ## Transporting
 --
@@ -3422,7 +3422,7 @@ function ARTY:onafterMove(Controllable, From, Event, To, move)
  -- Set current move.
  self.currentMove=move
-  -- Route group to coodinate.
+  -- Route group to coordinate.
  self:_Move(self.Controllable, move.coord, move.speed, move.onroad)
 end
--- a/Development/Moose/Functional/CleanUp.lua
+++ b/Development/Moose/Functional/CleanUp.lua
@@ -1,4 +1,4 @@
--- **Functional** -- Keep airbases clean of crashing or colliding airplanes, and kill missiles when being fired at airbases.
+--- **Functional** - Keep airbases clean of crashing or colliding airplanes, and kill missiles when being fired at airbases.
 --
 -- ===
 --
--- a/Development/Moose/Functional/Designate.lua
+++ b/Development/Moose/Functional/Designate.lua
@@ -1,4 +1,4 @@
--- **Functional** -- Management of target **Designation**. Lase, smoke and illuminate targets.
+--- **Functional** - Management of target **Designation**. Lase, smoke and illuminate targets.
 --
 -- ===
 --
@@ -48,7 +48,7 @@
 -- 
 -- ![Banner Image](..\Presentations\DESIGNATE\Dia3.JPG)
 -- 
-- A typical mission setup would require Recce (a @{Set} of Recce) to be detecting potential targets.
+-- A typical mission setup would require Recce (a @{Core.Set} of Recce) to be detecting potential targets.
 -- The DetectionObject will group the detected targets based on the detection method being used.
 -- Possible detection methods could be by Area, by Type or by Unit.
 -- Each grouping will result in a **TargetGroup**, for terminology and clarity we will use this term throughout the document.
@@ -213,7 +213,7 @@ do -- DESIGNATE
  -- In order to prevent an overflow of designations due to many Detected Targets, there is a 
  -- Maximum Designations scope that is set in the DesignationObject.
  -- 
-  -- The method @{#DESIGNATE.SetMaximumDesignations}() will put a limit on the amount of designations put in scope of the DesignationObject.
+  -- The method @{#DESIGNATE.SetMaximumDesignations}() will put a limit on the amount of designations (target groups) put in scope of the DesignationObject.
  -- Using the menu system, the player can "forget" a designation, so that gradually a new designation can be put in scope when detected.
  -- 
  -- # 4. Laser codes
@@ -276,7 +276,7 @@ do -- DESIGNATE
  -- # 7. Designate Menu Location for a Mission
  -- 
  -- You can make DESIGNATE work for a @{Tasking.Mission#MISSION} object. In this way, the designate menu will not appear in the root of the radio menu, but in the menu of the Mission.
-  -- Use the method @{#DESIGNATE.SetMission}() to set the @{Mission} object for the designate function.
+  -- Use the method @{#DESIGNATE.SetMission}() to set the @{Tasking.Mission} object for the designate function.
  -- 
  -- # 8. Status Report
  -- 
@@ -562,7 +562,8 @@ do -- DESIGNATE
  end
-  --- Set the maximum amount of designations.
+  --- Set the maximum amount of designations (target groups). This will put a limit on the amount of designations in scope.
  -- Using the menu system, the player can "forget" a designation, so that gradually a new designation can be put in scope when detected.
  -- @param #DESIGNATE self
  -- @param #number MaximumDesignations
  -- @return #DESIGNATE
@@ -602,7 +603,7 @@ do -- DESIGNATE
  end
-  --- Set the maximum amount of markings FACs will do, per designated target group.
+  --- Set the maximum amount of markings FACs will do, per designated target group. This will limit the number of parallelly marked units of a target group.
  -- @param #DESIGNATE self
  -- @param #number MaximumMarkings Maximum markings FACs will do, per designated target group.
  -- @return #DESIGNATE
@@ -911,8 +912,8 @@ do -- DESIGNATE
          for DesignateIndex, Designating in pairs( self.Designating ) do
            local DetectedItem = DetectedItems[DesignateIndex]
            if DetectedItem then
-              local Report = self.Detection:DetectedItemReportSummary( DetectedItem, AttackGroup ):Text( ", " )
+              local Report = self.Detection:DetectedItemReportSummary( DetectedItem, AttackGroup, nil, true ):Text( ", " )
-              DetectedReport:Add( string.rep( "-", 140 ) )
+              DetectedReport:Add( string.rep( "-", 40 ) )
              DetectedReport:Add( " - " .. Report )
              if string.find( Designating, "L" ) then
                DetectedReport:Add( " - " .. "Lasing Targets" )
@@ -1192,8 +1193,8 @@ do -- DESIGNATE
    local MarkingCount = 0
    local MarkedTypes = {}
-    local ReportTypes = REPORT:New()
+    --local ReportTypes = REPORT:New()
-    local ReportLaserCodes = REPORT:New()
+    --local ReportLaserCodes = REPORT:New()
    TargetSetUnit:Flush( self )
@@ -1243,7 +1244,7 @@ do -- DESIGNATE
              if not Recce then
                self:F( "Lasing..." )
-                self.RecceSet:Flush( self)
+                --self.RecceSet:Flush( self)
                for RecceGroupID, RecceGroup in pairs( self.RecceSet:GetSet() ) do
                  for UnitID, UnitData in pairs( RecceGroup:GetUnits() or {} ) do
@@ -1282,13 +1283,13 @@ do -- DESIGNATE
                          -- OK. We have assigned for the Recce a TargetUnit. We can exit the function.
                          MarkingCount = MarkingCount + 1
                          local TargetUnitType = TargetUnit:GetTypeName()
-                          --RecceUnit:MessageToSetGroup( "Marking " .. TargetUnit:GetTypeName() .. " with laser " .. RecceUnit:GetSpot().LaserCode .. " for " .. Duration .. "s.", 
+                          RecceUnit:MessageToSetGroup( "Marking " .. TargetUnit:GetTypeName() .. " with laser " .. RecceUnit:GetSpot().LaserCode .. " for " .. Duration .. "s.", 
-                          --                             5, self.AttackSet, DesignateName )
+                                                     10, self.AttackSet, DesignateName )
                          if not MarkedTypes[TargetUnitType] then
                            MarkedTypes[TargetUnitType] = true
-                            ReportTypes:Add(TargetUnitType)
+                            --ReportTypes:Add(TargetUnitType)
                          end
-                          ReportLaserCodes:Add(RecceUnit.LaserCode)
+                          --ReportLaserCodes:Add(RecceUnit.LaserCode)
                          return
                        end
                      else
@@ -1303,16 +1304,16 @@ do -- DESIGNATE
                        if Recce then
                          Recce:LaseOff()
-                          Recce:MessageToSetGroup( "Target " .. TargetUnit:GetTypeName() "out of LOS. Cancelling lase!", 5, self.AttackSet, self.DesignateName )
+                          Recce:MessageToSetGroup( "Target " .. TargetUnit:GetTypeName() "out of LOS. Cancelling lase!", 10, self.AttackSet, self.DesignateName )
                        end
                      else
                        --MarkingCount = MarkingCount + 1
                        local TargetUnitType = TargetUnit:GetTypeName()
                        if not MarkedTypes[TargetUnitType] then
                          MarkedTypes[TargetUnitType] = true
-                          ReportTypes:Add(TargetUnitType)
+                          --ReportTypes:Add(TargetUnitType)
                        end
-                        ReportLaserCodes:Add(RecceUnit.LaserCode)
+                        --ReportLaserCodes:Add(RecceUnit.LaserCode)
                      end  
                    end
                  end
@@ -1322,19 +1323,19 @@ do -- DESIGNATE
                local TargetUnitType = TargetUnit:GetTypeName()
                if not MarkedTypes[TargetUnitType] then
                  MarkedTypes[TargetUnitType] = true
-                  ReportTypes:Add(TargetUnitType)
+                  --ReportTypes:Add(TargetUnitType)
                end
-                ReportLaserCodes:Add(Recce.LaserCode)
+                --ReportLaserCodes:Add(Recce.LaserCode)
-                --Recce:MessageToSetGroup( self.DesignateName .. ": Marking " .. TargetUnit:GetTypeName() .. " with laser " .. Recce.LaserCode .. ".", 5, self.AttackSet )
+                Recce:MessageToSetGroup( self.DesignateName .. ": Marking " .. TargetUnit:GetTypeName() .. " with laser " .. Recce.LaserCode .. ".", 10, self.AttackSet )
              end
            end
          end
        end
      )
-      local MarkedTypesText = ReportTypes:Text(', ')
+      --local MarkedTypesText = ReportTypes:Text(', ')
-      local MarkedLaserCodesText = ReportLaserCodes:Text(', ')
+      --local MarkedLaserCodesText = ReportLaserCodes:Text(', ')
-      self.CC:GetPositionable():MessageToSetGroup( "Marking " .. MarkingCount .. " x "  .. MarkedTypesText .. ", code " .. MarkedLaserCodesText .. ".", 5, self.AttackSet, self.DesignateName )
+      --self.CC:GetPositionable():MessageToSetGroup( "Marking " .. MarkingCount .. " x "  .. MarkedTypesText .. ", code " .. MarkedLaserCodesText .. ".", 5, self.AttackSet, self.DesignateName )
      self:__Lasing( -self.LaseDuration, Index, Duration, LaserCodeRequested )
--- a/Development/Moose/Functional/Detection.lua
+++ b/Development/Moose/Functional/Detection.lua
@@ -1,4 +1,4 @@
--- **Functional** -- Models the detection of enemy units by FACs or RECCEs and group them according various methods.
+--- **Functional** - Models the detection of enemy units by FACs or RECCEs and group them according various methods.
 --
 -- ===
 --
@@ -40,7 +40,7 @@
 do -- DETECTION_BASE
  --- @type DETECTION_BASE
-  -- @field Core.Set#SET_GROUP DetectionSetGroup The @{Set} of GROUPs in the Forward Air Controller role.
+  -- @field Core.Set#SET_GROUP DetectionSetGroup The @{Core.Set} of GROUPs in the Forward Air Controller role.
  -- @field DCS#Distance DetectionRange The range till which targets are accepted to be detected.
  -- @field #DETECTION_BASE.DetectedObjects DetectedObjects The list of detected objects.
  -- @field #table DetectedObjectsIdentified Map of the DetectedObjects identified.
@@ -318,7 +318,7 @@ do -- DETECTION_BASE
  --- DETECTION constructor.
  -- @param #DETECTION_BASE self
-  -- @param Core.Set#SET_GROUP DetectionSet The @{Set} of @{Group}s that is used to detect the units.
+  -- @param Core.Set#SET_GROUP DetectionSet The @{Core.Set} of @{Wrapper.Group}s that is used to detect the units.
  -- @return #DETECTION_BASE self
  function DETECTION_BASE:New( DetectionSet )
@@ -667,7 +667,8 @@ do -- DETECTION_BASE
              local Distance = ( ( DetectedObjectVec3.x - DetectionGroupVec3.x )^2 +
                ( DetectedObjectVec3.y - DetectionGroupVec3.y )^2 +
-                             (DetectedObjectVec3.z - DetectionGroupVec3.z) ^ 2) ^ 0.5 / 1000
+                ( DetectedObjectVec3.z - DetectionGroupVec3.z )^2
                ) ^ 0.5 / 1000
              local DetectedUnitCategory = DetectedObject:getDesc().category
@@ -1981,7 +1982,7 @@ do -- DETECTION_UNITS
  --- Will detect units within the battle zone.
  --
-  -- It will build a DetectedItems list filled with DetectedItems. Each DetectedItem will contain a field Set, which contains a @{Core.Set#SET_UNIT} containing ONE @{UNIT} object reference.
+  -- It will build a DetectedItems list filled with DetectedItems. Each DetectedItem will contain a field Set, which contains a @{Core.Set#SET_UNIT} containing ONE @{Wrapper.Unit#UNIT} object reference.
  -- Beware that when the amount of units detected is large, the DetectedItems list will be large also.
  --
  -- @field #DETECTION_UNITS
@@ -1992,7 +1993,7 @@ do -- DETECTION_UNITS
  --- DETECTION_UNITS constructor.
  -- @param Functional.Detection#DETECTION_UNITS self
-  -- @param Core.Set#SET_GROUP DetectionSetGroup The @{Set} of GROUPs in the Forward Air Controller role.
+  -- @param Core.Set#SET_GROUP DetectionSetGroup The @{Core.Set} of GROUPs in the Forward Air Controller role.
  -- @return Functional.Detection#DETECTION_UNITS self
  function DETECTION_UNITS:New( DetectionSetGroup )
@@ -2151,8 +2152,9 @@ do -- DETECTION_UNITS
  -- @param #DETECTION_BASE.DetectedItem DetectedItem The DetectedItem.
  -- @param Wrapper.Group#GROUP AttackGroup The group to generate the report for.
  -- @param Core.Settings#SETTINGS Settings Message formatting settings to use.
  -- @param #boolean ForceA2GCoordinate Set creation of A2G coordinate
  -- @return Core.Report#REPORT The report of the detection items.
-  function DETECTION_UNITS:DetectedItemReportSummary( DetectedItem, AttackGroup, Settings )
+  function DETECTION_UNITS:DetectedItemReportSummary( DetectedItem, AttackGroup, Settings, ForceA2GCoordinate )
    self:F( { DetectedItem = DetectedItem } )
    local DetectedItemID = self:GetDetectedItemID( DetectedItem )
@@ -2188,6 +2190,10 @@ do -- DETECTION_UNITS
      local DetectedItemCoordinate = self:GetDetectedItemCoordinate( DetectedItem )
      local DetectedItemCoordText = DetectedItemCoordinate:ToString( AttackGroup, Settings )
      if ForceA2GCoordinate then
        DetectedItemCoordText = DetectedItemCoordinate:ToStringA2G(AttackGroup,Settings)
      end
      local ThreatLevelA2G = self:GetDetectedItemThreatLevel( DetectedItem )
      local Report = REPORT:New()
@@ -2231,7 +2237,7 @@ do -- DETECTION_TYPES
  --- Will detect units within the battle zone.
  -- It will build a DetectedItems[] list filled with DetectedItems, grouped by the type of units detected.
-  -- Each DetectedItem will contain a field Set, which contains a @{Core.Set#SET_UNIT} containing ONE @{UNIT} object reference.
+  -- Each DetectedItem will contain a field Set, which contains a @{Core.Set#SET_UNIT} containing ONE @{Wrapper.Unit#UNIT} object reference.
  -- Beware that when the amount of different types detected is large, the DetectedItems[] list will be large also.
  --
  -- @field #DETECTION_TYPES
@@ -2242,7 +2248,7 @@ do -- DETECTION_TYPES
  --- DETECTION_TYPES constructor.
  -- @param Functional.Detection#DETECTION_TYPES self
-  -- @param Core.Set#SET_GROUP DetectionSetGroup The @{Set} of GROUPs in the Recce role.
+  -- @param Core.Set#SET_GROUP DetectionSetGroup The @{Core.Set} of GROUPs in the Recce role.
  -- @return Functional.Detection#DETECTION_TYPES self
  function DETECTION_TYPES:New( DetectionSetGroup )
@@ -2430,7 +2436,7 @@ do -- DETECTION_AREAS
  --- @type DETECTION_AREAS
  -- @field DCS#Distance DetectionZoneRange The range till which targets are grouped upon the first detected target.
-  -- @field #DETECTION_BASE.DetectedItems DetectedItems A list of areas containing the set of @{Wrapper.Unit}s, @{Zone}s, the center @{Wrapper.Unit} within the zone, and ID of each area that was detected within a DetectionZoneRange.
+  -- @field #DETECTION_BASE.DetectedItems DetectedItems A list of areas containing the set of @{Wrapper.Unit}s, @{Core.Zone}s, the center @{Wrapper.Unit} within the zone, and ID of each area that was detected within a DetectionZoneRange.
  -- @extends Functional.Detection#DETECTION_BASE
  --- Detect units within the battle zone for a list of @{Wrapper.Group}s detecting targets following (a) detection method(s),
@@ -2440,7 +2446,7 @@ do -- DETECTION_AREAS
  --
  -- ## 4.1) Retrieve the Detected Unit Sets and Detected Zones
  -- 
-  -- The methods to manage the DetectedItems[].Set(s) are implemented in @{Functional.Detection#DETECTION_BASE} and
+  -- The methods to manage the DetectedItems[].Set(s) are implemented in @{Functional.Detection#DECTECTION_BASE} and 
  -- the methods to manage the DetectedItems[].Zone(s) are implemented in @{Functional.Detection#DETECTION_AREAS}.
  -- 
  -- Retrieve the DetectedItems[].Set with the method @{Functional.Detection#DETECTION_BASE.GetDetectedSet}(). A @{Core.Set#SET_UNIT} object will be returned.
@@ -2471,7 +2477,7 @@ do -- DETECTION_AREAS
  --- DETECTION_AREAS constructor.
  -- @param #DETECTION_AREAS self
-  -- @param Core.Set#SET_GROUP DetectionSetGroup The @{Set} of GROUPs in the Forward Air Controller role.
+  -- @param Core.Set#SET_GROUP DetectionSetGroup The @{Core.Set} of GROUPs in the Forward Air Controller role.
  -- @param DCS#Distance DetectionZoneRange The range till which targets are grouped upon the first detected target.
  -- @return #DETECTION_AREAS
  function DETECTION_AREAS:New( DetectionSetGroup, DetectionZoneRange )
@@ -2492,7 +2498,7 @@ do -- DETECTION_AREAS
  --- Retrieve set of detected zones.
  -- @param #DETECTION_AREAS self
-  -- @return Core.Set#SET_ZONE The @{Set} of ZONE_UNIT objects detected.
+  -- @return Core.Set#SET_ZONE The @{Core.Set} of ZONE_UNIT objects detected.
  function DETECTION_AREAS:GetDetectionZones()
    local zoneset = SET_ZONE:New()
    for _ID,_Item in pairs (self.DetectedItems) do
--- a/Development/Moose/Functional/DetectionZones.lua
+++ b/Development/Moose/Functional/DetectionZones.lua
@@ -1,8 +1,12 @@
 --- **Functional** - Captures the class DETECTION_ZONES.
 -- @module Functional.DetectionZones
 -- @image MOOSE.JPG
 do -- DETECTION_ZONES
  --- @type DETECTION_ZONES
  -- @field DCS#Distance DetectionZoneRange The range till which targets are grouped upon the first detected target.
-  -- @field #DETECTION_BASE.DetectedItems DetectedItems A list of areas containing the set of @{Wrapper.Unit}s, @{Zone}s, the center @{Wrapper.Unit} within the zone, and ID of each area that was detected within a DetectionZoneRange.
+  -- @field #DETECTION_BASE.DetectedItems DetectedItems A list of areas containing the set of @{Wrapper.Unit}s, @{Core.Zone}s, the center @{Wrapper.Unit} within the zone, and ID of each area that was detected within a DetectionZoneRange.
  -- @extends Functional.Detection#DETECTION_BASE
  --- (old, to be revised ) Detect units within the battle zone for a list of @{Core.Zone}s detecting targets following (a) detection method(s), 
@@ -44,7 +48,7 @@ do -- DETECTION_ZONES
  --- DETECTION_ZONES constructor.
  -- @param #DETECTION_ZONES self
-  -- @param Core.Set#SET_ZONE DetectionSetZone The @{Set} of ZONE_RADIUS.
+  -- @param Core.Set#SET_ZONE DetectionSetZone The @{Core.Set} of ZONE_RADIUS.
  -- @param DCS#Coalition.side DetectionCoalition The coalition of the detection.
  -- @return #DETECTION_ZONES
  function DETECTION_ZONES:New( DetectionSetZone, DetectionCoalition )
--- a/Development/Moose/Functional/Escort.lua
+++ b/Development/Moose/Functional/Escort.lua
@@ -1,4 +1,4 @@
--- **Functional** -- Taking the lead of AI escorting your flight.
+--- **Functional** - Taking the lead of AI escorting your flight.
 -- 
 -- ===
 -- 
--- a/Development/Moose/Functional/Fox.lua
+++ b/Development/Moose/Functional/Fox.lua
@@ -1,4 +1,4 @@
--- **Functional** - (R2.5) - Yet Another Missile Trainer.
+--- **Functional** - Yet Another Missile Trainer.
 -- 
 -- 
 -- Practice to evade missiles without being destroyed.
@@ -20,7 +20,7 @@
 -- ===
 --
 -- ### Author: **funkyfranky**
-- @module Functional.FOX
+-- @module Functional.Fox
 -- @image Functional_FOX.png
 --- FOX class.
@@ -492,7 +492,6 @@ end
 --- Disable F10 menu for all players.
 -- @param #FOX self
 -- @param #boolean switch If true debug mode on. If false/nil debug mode off
 -- @return #FOX self
 function FOX:SetDisableF10Menu()
@@ -501,6 +500,16 @@ function FOX:SetDisableF10Menu()
  return self
 end
 --- Enable F10 menu for all players.
 -- @param #FOX self
 -- @return #FOX self
 function FOX:SetEnableF10Menu()
  self.menudisabled=false
  return self
 end
 --- Set default player setting for missile destruction.
 -- @param #FOX self
 -- @param #boolean switch If true missiles are destroyed. If false/nil missiles are not destroyed.
@@ -792,7 +801,7 @@ function FOX:onafterMissileLaunch(From, Event, To, missile)
          local text=string.format("Missile launch detected! Distance %.1f NM, bearing %03d°.", UTILS.MetersToNM(distance), bearing)
          -- Say notching headings.
-          BASE:ScheduleOnce(5, FOX._SayNotchingHeadings, self, player, missile.weapon)
+          self:ScheduleOnce(5, FOX._SayNotchingHeadings, self, player, missile.weapon)
          --TODO: ALERT or INFO depending on whether this is a direct target.
          --TODO: lauchalertall option.
@@ -1114,6 +1123,13 @@ end
 -- Event Functions
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 --- FOX event handler for event birth.
 -- @param #FOX self
 -- @param Core.Event#EVENTDATA EventData
 function FOX:OnEventPlayerEnterAircraft(EventData)
 end
 --- FOX event handler for event birth.
 -- @param #FOX self
 -- @param Core.Event#EVENTDATA EventData
@@ -1155,7 +1171,7 @@ function FOX:OnEventBirth(EventData)
    -- Add F10 radio menu for player.
    if not self.menudisabled then
-      SCHEDULER:New(nil, self._AddF10Commands, {self,_unitName}, 0.1)
+      self:ScheduleOnce(0.1, self._AddF10Commands, self, _unitName)
    end
    -- Player data.
@@ -1422,10 +1438,10 @@ function FOX:_AddF10Commands(_unitName)
      end
    else
-      self:E(self.lid..string.format("ERROR: Could not find group or group ID in AddF10Menu() function. Unit name: %s.", _unitName))
+      self:E(self.lid..string.format("ERROR: Could not find group or group ID in AddF10Menu() function. Unit name: %s.", _unitName or "unknown"))
    end
  else
-    self:E(self.lid..string.format("ERROR: Player unit does not exist in AddF10Menu() function. Unit name: %s.", _unitName))
+    self:E(self.lid..string.format("ERROR: Player unit does not exist in AddF10Menu() function. Unit name: %s.", _unitName or "unknown"))
  end
 end
--- a/Development/Moose/Functional/Mantis.lua
+++ b/Development/Moose/Functional/Mantis.lua
--- a/Development/Moose/Functional/MissileTrainer.lua
+++ b/Development/Moose/Functional/MissileTrainer.lua
@@ -1,11 +1,11 @@
--- **Functional** -- Train missile defence and deflection.
+--- **Functional** - Train missile defence and deflection.
 --
 -- ===
 --
 -- ## Features:
 --
 --   * Track the missiles fired at you and other players, providing bearing and range information of the missiles towards the airplanes.
--   * Provide alerts of missile launches, including detailed information of the units launching, including bearing, range °
+--   * Provide alerts of missile launches, including detailed information of the units launching, including bearing, range
 --   * Provide alerts when a missile would have killed your aircraft.
 --   * Provide alerts when the missile self destructs.
 --   * Enable / Disable and Configure the Missile Trainer using the various menu options.
@@ -28,14 +28,14 @@
 --     * **Messages Off**: Disable all messages.
 --  * **Tracking**: Menu to configure missile tracking messages.
 --     * **To All**: Shows missile tracking messages to all players.
--     * **To Target**: Shows missile tracking messages only to the player where the missile is targetted at.
+--     * **To Target**: Shows missile tracking messages only to the player where the missile is targeted at.
 --     * **Tracking On**: Show missile tracking messages.
 --     * **Tracking Off**: Disable missile tracking messages.
 --     * **Frequency Increase**: Increases the missile tracking message frequency with one second.
 --     * **Frequency Decrease**: Decreases the missile tracking message frequency with one second.
 --  * **Alerts**: Menu to configure alert messages.
 --     * **To All**: Shows alert messages to all players.
--     * **To Target**: Shows alert messages only to the player where the missile is (was) targetted at.
+--     * **To Target**: Shows alert messages only to the player where the missile is (was) targeted at.
 --     * **Hits On**: Show missile hit alert messages.
 --     * **Hits Off**: Disable missile hit alert messages.
 --     * **Launches On**: Show missile launch messages.
@@ -88,7 +88,7 @@
 -- A MISSILETRAINER object will behave differently based on the usage of initialization methods:
 --
 --  * @{#MISSILETRAINER.InitMessagesOnOff}: Sets by default the display of any message to be ON or OFF.
--  * @{#MISSILETRAINER.InitTrackingToAll}: Sets by default the missile tracking report for all players or only for those missiles targetted to you.
+--  * @{#MISSILETRAINER.InitTrackingToAll}: Sets by default the missile tracking report for all players or only for those missiles targeted to you.
 --  * @{#MISSILETRAINER.InitTrackingOnOff}: Sets by default the display of missile tracking report to be ON or OFF.
 --  * @{#MISSILETRAINER.InitTrackingFrequency}: Increases, decreases the missile tracking message display frequency with the provided time interval in seconds.
 --  * @{#MISSILETRAINER.InitAlertsToAll}: Sets by default the display of alerts to be shown to all players or only to you.
@@ -256,7 +256,7 @@ function MISSILETRAINER:InitMessagesOnOff( MessagesOnOff )
  return self
 end
--- Sets by default the missile tracking report for all players or only for those missiles targetted to you.
+--- Sets by default the missile tracking report for all players or only for those missiles targeted to you.
 -- @param #MISSILETRAINER self
 -- @param #boolean TrackingToAll true or false
 -- @return #MISSILETRAINER self
--- a/Development/Moose/Functional/Movement.lua
+++ b/Development/Moose/Functional/Movement.lua
@@ -1,4 +1,4 @@
--- **Functional** -- Limit the movement of simulaneous moving ground vehicles.
+--- **Functional** - Limit the movement of simulaneous moving ground vehicles.
 -- 
 -- ===
 --  
@@ -36,9 +36,9 @@ function MOVEMENT:New( MovePrefixes, MoveMaximum )
 	else
 		self.MovePrefixes = { MovePrefixes }
 	end
-	self.MoveCount = 0															-- The internal counter of the amount of Moveing the has happened since MoveStart.
+	self.MoveCount = 0              -- The internal counter of the amount of Moving the has happened since MoveStart.
-	self.MoveMaximum = MoveMaximum												-- Contains the Maximum amount of units that are allowed to move...
+	self.MoveMaximum = MoveMaximum  -- Contains the Maximum amount of units that are allowed to move.
-	self.AliveUnits = 0														-- Contains the counter how many units are currently alive
+	self.AliveUnits = 0             -- Contains the counter how many units are currently alive.
 	self.MoveUnits = {}             -- Reflects if the Moving for this MovePrefixes is going to be scheduled or not.
 	self:HandleEvent( EVENTS.Birth )
@@ -67,7 +67,7 @@ function MOVEMENT:ScheduleStop()
 end
 --- Captures the birth events when new Units were spawned.
-- @todo This method should become obsolete. The new @{DATABASE} class will handle the collection administration.
+-- @todo This method should become obsolete. The global _DATABASE object (an instance of @{Core.Database#DATABASE}) will handle the collection administration.
 -- @param #MOVEMENT self
 -- @param Core.Event#EVENTDATA self
 function MOVEMENT:OnEventBirth( EventData )
@@ -93,7 +93,7 @@ function MOVEMENT:OnEventBirth( EventData )
 end
 --- Captures the Dead or Crash events when Units crash or are destroyed.
-- @todo This method should become obsolete. The new @{DATABASE} class will handle the collection administration.
+-- @todo This method should become obsolete. The global _DATABASE object (an instance of @{Core.Database#DATABASE}) will handle the collection administration.
 function MOVEMENT:OnDeadOrCrash( Event )
 	self:F( { Event } )
--- a/Development/Moose/Functional/PseudoATC.lua
+++ b/Development/Moose/Functional/PseudoATC.lua
@@ -1,4 +1,4 @@
--- **Functional** - Rudimentary ATC.
+--- **Functional** - Basic ATC.
 --  
 -- ![Banner Image](..\Presentations\PSEUDOATC\PSEUDOATC_Main.jpg)
 -- 
@@ -45,6 +45,7 @@
 -- @field #number talt Interval in seconds between reporting altitude until touchdown. Default 3 sec.
 -- @field #boolean chatty Display some messages on events like take-off and touchdown.
 -- @field #boolean eventsmoose If true, events are handled by MOOSE. If false, events are handled directly by DCS eventhandler.
 -- @field #boolean reportplayername If true, use playername not callsign on callouts
 -- @extends Core.Base#BASE
 --- Adds some rudimentary ATC functionality via the radio menu.
@@ -88,6 +89,7 @@ PSEUDOATC={
  talt=3,
  chatty=true,
  eventsmoose=true,
  reportplayername = false,
 }
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
@@ -98,7 +100,7 @@ PSEUDOATC.id="PseudoATC | "
 --- PSEUDOATC version.
 -- @field #number version
-PSEUDOATC.version="0.9.2"
+PSEUDOATC.version="0.9.5"
 -----------------------------------------------------------------------------------------------------------------------------------------
@@ -183,6 +185,13 @@ function PSEUDOATC:SetMessageDuration(duration)
  self.mdur=duration or 30
 end
 --- Use player name, not call sign, in callouts
 -- @param #PSEUDOATC self
 function PSEUDOATC:SetReportPlayername()
  self.reportplayername = true
  return self
 end
 --- Set time interval after which the F10 radio menu is refreshed.
 -- @param #PSEUDOATC self
 -- @param #number interval Interval in seconds. Default is every 120 sec.
@@ -441,14 +450,18 @@ function PSEUDOATC:PlayerLanded(unit, place)
  local group=unit:GetGroup()
  local GID=group:GetID()
  local UID=unit:GetDCSObject():getID()
-  local PlayerName=self.group[GID].player[UID].playername
+  --local PlayerName=self.group[GID].player[UID].playername
-  local UnitName=self.group[GID].player[UID].unitname
+  --local UnitName=self.group[GID].player[UID].unitname
-  local GroupName=self.group[GID].player[UID].groupname
+  --local GroupName=self.group[GID].player[UID].groupname
-  
+  local PlayerName = unit:GetPlayerName() or "Ghost"
  local UnitName = unit:GetName() or "Ghostplane"
  local GroupName = group:GetName() or "Ghostgroup"
  if self.Debug then
    -- Debug message.
-  local text=string.format("Player %s in unit %s of group %s (id=%d) landed at %s.", PlayerName, UnitName, GroupName, GID, place)
+    local text=string.format("Player %s in unit %s of group %s landed at %s.", PlayerName, UnitName, GroupName, place)
    self:T(PSEUDOATC.id..text)
    MESSAGE:New(text, 30):ToAllIf(self.Debug)
  end
  -- Stop altitude reporting timer if its activated.
  self:AltitudeTimerStop(GID,UID)
@@ -470,21 +483,28 @@ function PSEUDOATC:PlayerTakeOff(unit, place)
  -- Gather some information.
  local group=unit:GetGroup()
-  local GID=group:GetID()
+  --local GID=group:GetID()
-  local UID=unit:GetDCSObject():getID()
+  --local UID=unit:GetDCSObject():getID()
-  local PlayerName=self.group[GID].player[UID].playername
+  --local PlayerName=self.group[GID].player[UID].playername
-  local CallSign=self.group[GID].player[UID].callsign
+  --local CallSign=self.group[GID].player[UID].callsign
-  local UnitName=self.group[GID].player[UID].unitname
+  --local UnitName=self.group[GID].player[UID].unitname
-  local GroupName=self.group[GID].player[UID].groupname
+  --local GroupName=self.group[GID].player[UID].groupname
-  
+  local PlayerName = unit:GetPlayerName() or "Ghost"
  local UnitName = unit:GetName() or "Ghostplane"
  local GroupName = group:GetName() or "Ghostgroup"
  local CallSign = unit:GetCallsign() or "Ghost11"
  if self.Debug then
    -- Debug message.
-  local text=string.format("Player %s in unit %s of group %s (id=%d) took off at %s.", PlayerName, UnitName, GroupName, GID, place)
+    local text=string.format("Player %s in unit %s of group %s took off at %s.", PlayerName, UnitName, GroupName, place)
    self:T(PSEUDOATC.id..text)
    MESSAGE:New(text, 30):ToAllIf(self.Debug)
-    
+  end
  -- Bye-Bye message.
  if place and self.chatty then
    local text=string.format("%s, %s, you are airborne. Have a safe trip!", place, CallSign)
  if self.reportplayername then
    text=string.format("%s, %s, you are airborne. Have a safe trip!", place, PlayerName)
  end
    MESSAGE:New(text, self.mdur):ToGroup(group)
  end
@@ -501,7 +521,7 @@ function PSEUDOATC:PlayerLeft(unit)
  local GID=group:GetID()
  local UID=unit:GetDCSObject():getID()
-  if self.group[GID].player[UID] then
+  if self.group[GID] and self.group[GID].player and self.group[GID].player[UID] then
    local PlayerName=self.group[GID].player[UID].playername
    local CallSign=self.group[GID].player[UID].callsign
    local UnitName=self.group[GID].player[UID].unitname
@@ -687,7 +707,9 @@ function PSEUDOATC:MenuWaypoints(GID, UID)
      -- Position of Waypoint
      local pos=COORDINATE:New(wp.x, wp.alt, wp.y)
      local name=string.format("Waypoint %d", i-1)
-      
+      if wp.name and wp.name ~= "" then
        name = string.format("Waypoint %s",wp.name)
      end
      -- "F10/PseudoATC/Waypoints/Waypoint X"
      local submenu=missionCommands.addSubMenuForGroup(GID, name, self.group[GID].player[UID].menu_waypoints)
@@ -844,6 +866,7 @@ function PSEUDOATC:ReportHeight(GID, UID, dt, _clear)
    local position=unit:GetCoordinate()
    local height=get_AGL(position)
    local callsign=unit:GetCallsign()
    local PlayerName=self.group[GID].player[UID].playername
    -- Settings.
    local settings=_DATABASE:GetPlayerSettings(self.group[GID].player[UID].playername) or _SETTINGS --Core.Settings#SETTINGS
@@ -856,7 +879,9 @@ function PSEUDOATC:ReportHeight(GID, UID, dt, _clear)
    -- Message text.
    local _text=string.format("%s, your altitude is %s AGL.", callsign, Hs)
-    
+    if self.reportplayername then
    _text=string.format("%s, your altitude is %s AGL.", PlayerName, Hs)
  end
    -- Append flight level.
    if _clear==false then
      _text=_text..string.format(" FL%03d.", position.y/30.48)
@@ -949,11 +974,14 @@ function PSEUDOATC:LocalAirports(GID, UID)
    for _,airbase in pairs(airports) do
      local name=airbase:getName()
-      local q=AIRBASE:FindByName(name):GetCoordinate()
+      local a=AIRBASE:FindByName(name)
      if a then
        local q=a:GetCoordinate()
        local d=q:Get2DDistance(pos)
        -- Add to table.
        table.insert(self.group[GID].player[UID].airports, {distance=d, name=name})
      end
    end
  end
@@ -1041,6 +1069,3 @@ function PSEUDOATC:_myname(unitname)
  return string.format("%s (%s)", csign, pname)
 end
--- a/Development/Moose/Functional/RAT.lua
+++ b/Development/Moose/Functional/RAT.lua
@@ -51,7 +51,7 @@
 -- ### Contributions: [FlightControl](https://forums.eagle.ru/member.php?u=89536)
 --
 -- ===
-- @module Functional.Rat
+-- @module Functional.RAT
 -- @image RAT.JPG
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
@@ -2049,9 +2049,15 @@ function RAT:_InitAircraft(DCSgroup)
  --self.aircraft.descriptors=DCSdesc
  -- aircraft dimensions
  if DCSdesc.box then
    self.aircraft.length=DCSdesc.box.max.x
    self.aircraft.height=DCSdesc.box.max.y
    self.aircraft.width=DCSdesc.box.max.z
  elseif DCStype == "Mirage-F1CE" then
    self.aircraft.length=16
    self.aircraft.height=5
    self.aircraft.width=9
  end
  self.aircraft.box=math.max(self.aircraft.length,self.aircraft.width)
  -- info message
@@ -3486,7 +3492,7 @@ function RAT:Status(message, forID)
      local fuel=group:GetFuel()*100.0
      local airborne=group:InAir()
      local coords=group:GetCoordinate()
-      local alt=coords.y
+      local alt=coords.y or 1000
      --local vel=group:GetVelocityKMH()
      local departure=ratcraft.departure:GetName()
      local destination=ratcraft.destination:GetName()
@@ -5371,7 +5377,7 @@ function RAT:_ModifySpawnTemplate(waypoints, livery, spawnplace, departure, take
        if spawnonground then
-          -- Sh°ps and FARPS seem to have a build in queue.
+          -- Ships and FARPS seem to have a build in queue.
          if spawnonship or spawnonfarp or spawnonrunway or automatic then
            self:T(RAT.id..string.format("RAT group %s spawning at farp, ship or runway %s.", self.alias, departure:GetName()))
@@ -5437,7 +5443,7 @@ function RAT:_ModifySpawnTemplate(waypoints, livery, spawnplace, departure, take
          SpawnTemplate.units[UnitID]["onboard_num"] = string.format("%s%d%02d", self.onboardnum, (self.SpawnIndex-1)%10, (self.onboardnum0-1)+UnitID)
        end
-        -- Modify coaltion and country of template.
+        -- Modify coalition and country of template.
        SpawnTemplate.CoalitionID=self.coalition
        if self.country then
          SpawnTemplate.CountryID=self.country
@@ -5665,6 +5671,9 @@ function RAT:_ATCClearForLanding(airport, flight)
  -- Debug message.
  local text1=string.format("ATC %s: Flight %s cleared for landing (flag=%d).", airport, flight, flagvalue)
 	if string.find(flight,"#") then
 		flight =  string.match(flight,"^(.+)#")
 	end
  local text2=string.format("ATC %s: Flight %s you are cleared for landing.", airport, flight)
  BASE:T( RAT.id..text1)
  MESSAGE:New(text2, 10):ToAllIf(RAT.ATC.messages)
@@ -5707,6 +5716,9 @@ function RAT:_ATCFlightLanded(name)
    local text1=string.format("ATC %s: Flight %s landed. Tholding = %i:%02d, Tfinal = %i:%02d.", dest, name, Thold/60, Thold%60, Tfinal/60, Tfinal%60)
    local text2=string.format("ATC %s: Number of flights still on final %d.", dest, RAT.ATC.airport[dest].Nonfinal)
    local text3=string.format("ATC %s: Traffic report: Number of planes landed in total %d. Flights/hour = %3.2f.", dest, RAT.ATC.airport[dest].traffic, TrafficPerHour)
 	if string.find(name,"#") then
 		name =  string.match(name,"^(.+)#")
 	end
    local text4=string.format("ATC %s: Flight %s landed. Welcome to %s.", dest, name, dest)
    BASE:T(RAT.id..text1)
    BASE:T(RAT.id..text2)
@@ -6145,4 +6157,3 @@ function RATMANAGER:_RollDice(nrat,ntot,min,alive)
  -- Return number of groups to be spawned.
  return N
 end
--- a/Development/Moose/Functional/Range.lua
+++ b/Development/Moose/Functional/Range.lua
@@ -45,6 +45,7 @@
 -- ### Author: **[funkyfranky](https://forums.eagle.ru/member.php?u=115026)**
 --
 -- ### Contributions: [FlightControl](https://forums.eagle.ru/member.php?u=89536), [Ciribob](https://forums.eagle.ru/member.php?u=112175)
 -- ### SRS Additions: Applevangelist
 -- 
 -- ===
 -- @module Functional.Range
@@ -101,6 +102,10 @@
 -- @field #boolean targetsheet If true, players can save their target sheets. Rangeboss will not work if targetsheets do not save.
 -- @field #string targetpath Path where to save the target sheets.
 -- @field #string targetprefix File prefix for target sheet files.
 -- @field Sound.SRS#MSRS controlmsrs
 -- @field Sound.SRS#MSRSQUEUE controlsrsQ
 -- @field Sound.SRS#MSRS instructmsrs
 -- @field Sound.SRS#MSRSQUEUE instructsrsQ
 -- @extends Core.Fsm#FSM
 --- *Don't only practice your art, but force your way into its secrets; art deserves that, for it and knowledge can raise man to the Divine.* - Ludwig van Beethoven
@@ -133,7 +138,7 @@
 --
 -- A strafe pit can be added to the range by the @{#RANGE.AddStrafePit}(*targetnames, boxlength, boxwidth, heading, inverseheading, goodpass, foulline*) function.
 --
-- * The first parameter *targetnames* defines the target or targets. This can be a single item or a Table with the name(s) of @{Wrapper.Unit} or @{Static} objects defined in the mission editor.
+-- * The first parameter *targetnames* defines the target or targets. This can be a single item or a Table with the name(s) of @{Wrapper.Unit} or @{Wrapper.Static} objects defined in the mission editor.
 -- * In order to perform a valid pass on the strafe pit, the pilot has to begin his run from the correct direction. Therefore, an "approach box" is defined in front
 --   of the strafe targets. The parameters *boxlength* and *boxwidth* define the size of the box in meters, while the *heading* parameter defines the heading of the box FROM the target.
 --   For example, if heading 120 is set, the approach box will start FROM the target and extend outwards on heading 120. A strafe run approach must then be flown apx. heading 300 TOWARDS the target.
@@ -152,7 +157,7 @@
 --
 -- One ore multiple bombing targets can be added to the range by the @{#RANGE.AddBombingTargets}(targetnames, goodhitrange, randommove) function.
 --
-- * The first parameter *targetnames* defines the target or targets. This can be a single item or a Table with the name(s) of @{Wrapper.Unit} or @{Static} objects defined in the mission editor.
+-- * The first parameter *targetnames* defines the target or targets. This can be a single item or a Table with the name(s) of @{Wrapper.Unit} or @{Wrapper.Static} objects defined in the mission editor.
 -- * The (optional) parameter *goodhitrange* specifies the radius in metres around the target within which a bomb/rocket hit is considered to be "good".
 -- * If final (optional) parameter "*randommove*" can be enabled to create moving targets. If this parameter is set to true, the units of this bombing target will randomly move within the range zone.
 --   Note that there might be quirks since DCS units can get stuck in buildings etc. So it might be safer to manually define a route for the units in the mission editor if moving targets are desired.
@@ -225,6 +230,11 @@
 --
 -- By default, the sound files are placed in the "Range Soundfiles/" folder inside the mission (.miz) file. Another folder can be specified via the @{#RANGE.SetSoundfilesPath}(*path*) function.
 --
 -- ## Voice output via SRS
 -- 
 -- Alternatively, the voice output can be fully done via SRS, **no sound file additions needed**. Set up SRS with @{#RANGE.SetSRS}(). Range control and instructor frequencies and voices can then be
 -- set via @{#RANGE.SetSRSRangeControl}() and @{#RANGE.SetSRSRangeInstructor}()
 --
 -- # Persistence
 --
 -- To automatically save bombing results to disk, use the @{#RANGE.SetAutosave}() function. Bombing results will be saved as csv file in your "Saved Games\DCS.openbeta\Logs" directory.
@@ -291,7 +301,7 @@
 --      BASE:TraceLevel(1)
 --      BASE:TraceClass("RANGE")
 --
-- To get even more output you can increase the trace level to 2 or even 3, c.f. @{BASE} for more details.
+-- To get even more output you can increase the trace level to 2 or even 3, c.f. @{Core.Base#BASE} for more details.
 --
 -- The function @{#RANGE.DebugON}() can be used to send messages on screen. It also smokes all defined strafe and bombing targets, the strafe pit approach boxes and the range zone.
 --
@@ -429,6 +439,25 @@ RANGE.TargetType = {
 -- @field #string airframe Aircraft type of player.
 -- @field #number time Time via timer.getAbsTime() in seconds of impact.
 -- @field #string date OS date.
 -- @field #number attackHdg Attack heading in degrees.
 -- @field #number attackVel Attack velocity in knots.
 -- @field #number attackAlt Attack altitude in feet.
 -- @field #string clock Time of the run.
 -- @field #string rangename Name of the range.
 --- Strafe result.
 -- @type RANGE.StrafeResult
 -- @field #string player Player name.
 -- @field #string airframe Aircraft type of player.
 -- @field #number time Time via timer.getAbsTime() in seconds of impact.
 -- @field #string date OS date.
 -- @field #string name Name of the target pit.
 -- @field #number roundsFired Number of rounds fired.
 -- @field #number roundsHit Number of rounds that hit the target.
 -- @field #number strafeAccuracy Accuracy of the run in percent.
 -- @field #string clock Time of the run.
 -- @field #string rangename Name of the range.
 -- @field #boolean invalid Invalid pass.
 --- Strafe result.
 -- @type RANGE.StrafeResult
@@ -549,7 +578,7 @@ RANGE.MenuF10Root = nil
 --- Range script version.
 -- @field #string version
-RANGE.version = "2.4.0"
+RANGE.version = "2.5.1"
 -- TODO list:
 -- TODO: Verbosity level for messages.
@@ -569,17 +598,16 @@ RANGE.version = "2.4.0"
 --- RANGE contructor. Creates a new RANGE object.
 -- @param #RANGE self
-- @param #string rangename Name of the range. Has to be unique. Will we used to create F10 menu items etc.
+-- @param #string RangeName Name of the range. Has to be unique. Will we used to create F10 menu items etc.
 -- @return #RANGE RANGE object.
-function RANGE:New( rangename )
+function RANGE:New( RangeName )
  BASE:F( { rangename = rangename } )
  -- Inherit BASE.
  local self = BASE:Inherit( self, FSM:New() ) -- #RANGE
  -- Get range name.
  -- TODO: make sure that the range name is not given twice. This would lead to problems in the F10 radio menu.
-  self.rangename = rangename or "Practice Range"
+  self.rangename = RangeName or "Practice Range"
  -- Log id.
  self.id = string.format( "RANGE %s | ", self.rangename )
@@ -815,7 +843,7 @@ function RANGE:onafterStart()
  end
  -- Init range control.
-  if self.rangecontrolfreq then
+  if self.rangecontrolfreq and not self.useSRS then
    -- Radio queue.
    self.rangecontrol = RADIOQUEUE:New( self.rangecontrolfreq, nil, self.rangename )
@@ -841,7 +869,7 @@ function RANGE:onafterStart()
    self.rangecontrol:Start( 1, 0.1 )
    -- Init range control.
-    if self.instructorfreq then
+    if self.instructorfreq and not self.useSRS then
      -- Radio queue.
      self.instructor = RADIOQUEUE:New( self.instructorfreq, nil, self.rangename )
@@ -950,6 +978,19 @@ function RANGE:SetTargetSheet( path, prefix )
  return self
 end
 --- Set FunkMan socket. Bombing and strafing results will be send to your Discord bot.
 -- **Requires running FunkMan program**.
 -- @param #RANGE self
 -- @param #number Port Port. Default `10042`.
 -- @param #string Host Host. Default "127.0.0.1".
 -- @return #RANGE self
 function RANGE:SetFunkManOn(Port, Host)
  self.funkmanSocket=SOCKET:New(Port, Host)
  return self
 end
 --- Set messages to examiner. The examiner will receive messages from all clients.
 -- @param #RANGE self
 -- @param #string examinergroupname Name of the group of the examiner.
@@ -1146,7 +1187,96 @@ function RANGE:TrackMissilesOFF()
  return self
 end
--- Enable range control and set frequency.
+--- Use SRS Simple-Text-To-Speech for transmissions. No sound files necessary.
 -- @param #RANGE self
 -- @param #string PathToSRS Path to SRS directory.
 -- @param #number Port SRS port. Default 5002.
 -- @param #number Coalition Coalition side, e.g. coalition.side.BLUE or coalition.side.RED
 -- @param #number Frequency Frequency to use, defaults to 256 (same as rangecontrol)
 -- @param #number Modulation Modulation to use, defaults to radio.modulation.AM
 -- @param #number Volume Volume, between 0.0 and 1.0. Defaults to 1.0
 -- @param #string PathToGoogleKey Path to Google TTS credentials.
 -- @return #RANGE self
 function RANGE:SetSRS(PathToSRS, Port, Coalition, Frequency, Modulation, Volume, PathToGoogleKey)
  if PathToSRS then
    self.useSRS=true
    self.controlmsrs=MSRS:New(PathToSRS, Frequency or 256, Modulation or radio.modulation.AM, Volume or 1.0)
    self.controlmsrs:SetPort(Port)
    self.controlmsrs:SetCoalition(Coalition or coalition.side.BLUE)
    self.controlmsrs:SetLabel("RANGEC")
    self.controlsrsQ = MSRSQUEUE:New("CONTROL")
    self.instructmsrs=MSRS:New(PathToSRS, Frequency or 305, Modulation or radio.modulation.AM, Volume or 1.0)
    self.instructmsrs:SetPort(Port)
    self.instructmsrs:SetCoalition(Coalition or coalition.side.BLUE)
    self.instructmsrs:SetLabel("RANGEI")
    self.instructsrsQ = MSRSQUEUE:New("INSTRUCT")
    if PathToGoogleKey then 
      self.instructmsrs:SetGoogle(PathToGoogleKey)
      self.instructmsrs:SetGoogle(PathToGoogleKey)
    end
  else
    self:E(self.lid..string.format("ERROR: No SRS path specified!"))
  end
  return self
 end
 --- (SRS) Set range control frequency and voice.
 -- @param #RANGE self
 -- @param #number frequency Frequency in MHz. Default 256 MHz.
 -- @param #number modulation Modulation, defaults to radio.modulation.AM.
 -- @param #string voice Voice.
 -- @param #string culture Culture, defaults to "en-US".
 -- @param #string gender Gender, defaults to "female".
 -- @param #string relayunitname Name of the unit used for transmission location.
 -- @return #RANGE self
 function RANGE:SetSRSRangeControl( frequency, modulation, voice, culture, gender, relayunitname )
  self.rangecontrolfreq = frequency or 256
  self.controlmsrs:SetFrequencies(self.rangecontrolfreq)
  self.controlmsrs:SetModulations(modulation or radio.modulation.AM)
  self.controlmsrs:SetVoice(voice)
  self.controlmsrs:SetCulture(culture or "en-US")
  self.controlmsrs:SetGender(gender or "female")
  self.rangecontrol = true
  if relayunitname then
    local unit = UNIT:FindByName(relayunitname)
    local Coordinate = unit:GetCoordinate()
    self.rangecontrolrelayname = relayunitname
  end
  return self
 end
 --- (SRS) Set range instructor frequency and voice.
 -- @param #RANGE self
 -- @param #number frequency Frequency in MHz. Default 305 MHz.
 -- @param #number modulation Modulation, defaults to radio.modulation.AM.
 -- @param #string voice Voice.
 -- @param #string culture Culture, defaults to "en-US".
 -- @param #string gender Gender, defaults to "male".
 -- @param #string relayunitname Name of the unit used for transmission location.
 -- @return #RANGE self
 function RANGE:SetSRSRangeInstructor( frequency, modulation, voice, culture, gender, relayunitname )
  self.instructorfreq = frequency or 305
  self.instructmsrs:SetFrequencies(self.instructorfreq)
  self.instructmsrs:SetModulations(modulation or radio.modulation.AM)
  self.instructmsrs:SetVoice(voice)
  self.instructmsrs:SetCulture(culture or "en-US")
  self.instructmsrs:SetGender(gender or "male")
  self.instructor = true
  if relayunitname then
    local unit = UNIT:FindByName(relayunitname)
    local Coordinate = unit:GetCoordinate()
    self.instructmsrs:SetCoordinate(Coordinate)
    self.instructorrelayname = relayunitname
  end
  return self
 end
 --- Enable range control and set frequency (non-SRS).
 -- @param #RANGE self
 -- @param #number frequency Frequency in MHz. Default 256 MHz.
 -- @param #string relayunitname Name of the unit used for transmission.
@@ -1157,7 +1287,7 @@ function RANGE:SetRangeControl( frequency, relayunitname )
  return self
 end
--- Enable instructor radio and set frequency.
+--- Enable instructor radio and set frequency (non-SRS).
 -- @param #RANGE self
 -- @param #number frequency Frequency in MHz. Default 305 MHz.
 -- @param #string relayunitname Name of the unit used for transmission.
@@ -1388,7 +1518,7 @@ function RANGE:AddBombingTargets( targetnames, goodhitrange, randommove )
    elseif _isstatic == false then
      local _unit = UNIT:FindByName( name )
      self:T2( self.id .. string.format( "Adding unit bombing target %s with hit range %d.", name, goodhitrange, randommove ) )
-      self:AddBombingTargetUnit( _unit, goodhitrange )
+      self:AddBombingTargetUnit( _unit, goodhitrange, randommove )
    else
      self:E( self.id .. string.format( "ERROR! Could not find bombing target %s.", name ) )
    end
@@ -1724,11 +1854,15 @@ function RANGE:OnEventHit( EventData )
          -- Too close to the target.
          if _currentTarget.pastfoulline == false and _unit and _playername then
            local _d = _currentTarget.zone.foulline
            -- DONE - SRS output
            local text = string.format( "%s, Invalid hit!\nYou already passed foul line distance of %d m for target %s.", self:_myname( _unitName ), _d, targetname )
            if self.useSRS then
              local ttstext = string.format( "%s, Invalid hit! You already passed foul line distance of %d meters for target %s.", self:_myname( _unitName ), _d, targetname )
              self.controlsrsQ:NewTransmission(ttstext,nil,self.controlmsrs,nil,2)
            end
            self:_DisplayMessageToGroup( _unit, text )
            self:T2( self.id .. text )
            _currentTarget.pastfoulline = true
            invalidStrafe = true -- Rangeboss Edit
          end
        end
@@ -1760,6 +1894,13 @@ function RANGE:OnEventHit( EventData )
  end
 end
 --- Range event handler for event shot (when a unit releases a rocket or bomb (but not a fast firing gun).
 -- @param #RANGE self
 -- @param #table weapon Weapon
 function RANGE:_TrackWeapon(weapon)
 end
 --- Range event handler for event shot (when a unit releases a rocket or bomb (but not a fast firing gun).
 -- @param #RANGE self
 -- @param Core.Event#EVENTDATA EventData
@@ -1774,6 +1915,10 @@ function RANGE:OnEventShot( EventData )
    return
  end
  if EventData.IniPlayerName == nil then
    return
  end
  -- Weapon data.
  local _weapon = EventData.Weapon:getTypeName() -- should be the same as Event.WeaponTypeName
  local _weaponStrArray = UTILS.Split( _weapon, "%." )
@@ -1807,6 +1952,11 @@ function RANGE:OnEventShot( EventData )
  -- Get player unit and name.
  local _unit, _playername = self:_GetPlayerUnitAndName( _unitName )
  -- Attack parameters.
  local attackHdg=_unit:GetHeading()
  local attackAlt=_unit:GetHeight()
  local attackVel=_unit:GetVelocityKNOTS()
  -- Set this to larger value than the threshold.
  local dPR = self.BombtrackThreshold * 2
@@ -1848,7 +1998,6 @@ function RANGE:OnEventShot( EventData )
        -- Check again in ~0.005 seconds ==> 200 checks per second.
        return timer.getTime() + self.dtBombtrack
      else
        -----------------------------
@@ -1858,7 +2007,7 @@ function RANGE:OnEventShot( EventData )
        -- Get closet target to last position.
        local _closetTarget = nil -- #RANGE.BombTarget
        local _distance = nil
-        local _closeCoord = nil
+        local _closeCoord = nil   --Core.Point#COORDINATE
        local _hitquality = "POOR"
        -- Get callsign.
@@ -1886,6 +2035,7 @@ function RANGE:OnEventShot( EventData )
        -- Loop over defined bombing targets.
        for _, _bombtarget in pairs( self.bombingTargets ) do
          local bombtarget=_bombtarget  --#RANGE.BombTarget
          -- Get target coordinate.
          local targetcoord = self:_GetBombTargetCoordinate( _bombtarget )
@@ -1898,15 +2048,15 @@ function RANGE:OnEventShot( EventData )
            -- Find closest target to last known position of the bomb.
            if _distance == nil or _temp < _distance then
              _distance = _temp
-              _closetTarget = _bombtarget
+              _closetTarget = bombtarget
              _closeCoord   = targetcoord
              if _distance <= 1.53 then -- Rangeboss Edit
                _hitquality = "SHACK" -- Rangeboss Edit
-              elseif _distance <= 0.5 * _bombtarget.goodhitrange then -- Rangeboss Edit
+              elseif _distance <= 0.5 * bombtarget.goodhitrange then -- Rangeboss Edit
                _hitquality = "EXCELLENT"
-              elseif _distance <= _bombtarget.goodhitrange then
+              elseif _distance <= bombtarget.goodhitrange then
                _hitquality = "GOOD"
-              elseif _distance <= 2 * _bombtarget.goodhitrange then
+              elseif _distance <= 2 * bombtarget.goodhitrange then
                _hitquality = "INEFFECTIVE"
              else
                _hitquality = "POOR"
@@ -1927,6 +2077,7 @@ function RANGE:OnEventShot( EventData )
          local _results = self.bombPlayerResults[_playername]
          local result = {} -- #RANGE.BombResult
          result.command=SOCKET.DataType.BOMBRESULT
          result.name = _closetTarget.name or "unknown"
          result.distance = _distance
          result.radial = _closeCoord:HeadingTo( impactcoord )
@@ -1934,11 +2085,17 @@ function RANGE:OnEventShot( EventData )
          result.quality = _hitquality
          result.player = playerData.playername
          result.time = timer.getAbsTime()
          result.clock = UTILS.SecondsToClock(result.time, true)
          result.midate = UTILS.GetDCSMissionDate()
          result.theatre = env.mission.theatre
          result.airframe = playerData.airframe
          result.roundsFired = 0 -- Rangeboss Edit
          result.roundsHit = 0 -- Rangeboss Edit
          result.roundsQuality = "N/A" -- Rangeboss Edit
          result.rangename = self.rangename
          result.attackHdg = attackHdg
          result.attackVel = attackVel
          result.attackAlt = attackAlt
          -- Add to table.
          table.insert( _results, result )
@@ -1949,12 +2106,22 @@ function RANGE:OnEventShot( EventData )
        elseif insidezone then
          -- Send message.
          -- DONE SRS message
          local _message = string.format( "%s, weapon impacted too far from nearest range target (>%.1f km). No score!", _callsign, self.scorebombdistance / 1000 )
          if self.useSRS then
            local ttstext = string.format( "%s, weapon impacted too far from nearest range target, mor than %.1f kilometer. No score!", _callsign, self.scorebombdistance / 1000 )
            self.controlsrsQ:NewTransmission(ttstext,nil,self.controlmsrs,nil,2)        
          end
          self:_DisplayMessageToGroup( _unit, _message, nil, false )
          if self.rangecontrol then
            -- weapon impacted too far from the nearest target! No Score!
            if self.useSRS then
              self.controlsrsQ:NewTransmission(_message,nil,self.controlmsrs,nil,1)
            else
              self.rangecontrol:NewTransmission( RANGE.Sound.RCWeaponImpactedTooFar.filename, RANGE.Sound.RCWeaponImpactedTooFar.duration, self.soundpath, nil, nil, _message, self.subduration )
            end
          end
        else
          self:T( self.id .. "Weapon impacted outside range zone." )
@@ -2037,10 +2204,17 @@ function RANGE:onafterEnterRange( From, Event, To, player )
  if self.instructor and self.rangecontrol then
    if self.useSRS then
      local text = string.format("You entered the bombing range. For hit assessment, contact the range controller at %.3f MHz", self.rangecontrolfreq)
      local ttstext = string.format("You entered the bombing range. For hit assessment, contact the range controller at %.3f mega hertz.", self.rangecontrolfreq)
      local group = player.client:GetGroup()
      self.instructsrsQ:NewTransmission(ttstext,nil,self.instructmsrs,nil,1,{group},text,10)
    else
      -- Range control radio frequency split.
      local RF = UTILS.Split( string.format( "%.3f", self.rangecontrolfreq ), "." )
      -- Radio message that player entered the range
      -- You entered the bombing range. For hit assessment, contact the range controller at xy MHz
      self.instructor:NewTransmission( RANGE.Sound.IREnterRange.filename, RANGE.Sound.IREnterRange.duration, self.soundpath )
      self.instructor:Number2Transmission( RF[1] )
      if tonumber( RF[2] ) > 0 then
@@ -2049,6 +2223,7 @@ function RANGE:onafterEnterRange( From, Event, To, player )
      end
      self.instructor:NewTransmission( RANGE.Sound.IRMegaHertz.filename, RANGE.Sound.IRMegaHertz.duration, self.soundpath )
    end
  end
 end
@@ -2061,8 +2236,15 @@ end
 function RANGE:onafterExitRange( From, Event, To, player )
  if self.instructor then
    -- You left the bombing range zone. Have a nice day!
    if self.useSRS then
      local text = "You left the bombing range zone. Have a nice day!"
      local group = player.client:GetGroup()
      self.instructsrsQ:NewTransmission(text,nil,self.instructmsrs,nil,1,{group},text,10)
    else
      self.instructor:NewTransmission( RANGE.Sound.IRExitRange.filename, RANGE.Sound.IRExitRange.duration, self.soundpath )
    end
  end
 end
@@ -2078,19 +2260,24 @@ function RANGE:onafterImpact( From, Event, To, result, player )
  -- Only display target name if there is more than one bomb target.
  local targetname = nil
  if #self.bombingTargets > 1 then
-    local targetname = result.name
+    targetname = result.name
  end
  -- Send message to player.
-  local text = string.format( "%s, impact %03d° for %d ft", player.playername, result.radial, UTILS.MetersToFeet( result.distance ) )
+  local text = string.format( "%s, impact %03d° for %d ft (%d m)", player.playername, result.radial, UTILS.MetersToFeet( result.distance ), result.distance )
  if targetname then
-    text = text .. string.format( " from bulls of target %s." )
+    text = text .. string.format( " from bulls of target %s.", targetname )
  else
    text = text .. "."
  end
  text = text .. string.format( " %s hit.", result.quality )
  if self.rangecontrol then
    if self.useSRS then
      local group = player.client:GetGroup()
      self.controlsrsQ:NewTransmission(text,nil,self.controlmsrs,nil,1,{group},text,10)
    else
      self.rangecontrol:NewTransmission( RANGE.Sound.RCImpact.filename, RANGE.Sound.RCImpact.duration, self.soundpath, nil, nil, text, self.subduration )
      self.rangecontrol:Number2Transmission( string.format( "%03d", result.radial ), nil, 0.1 )
      self.rangecontrol:NewTransmission( RANGE.Sound.RCDegrees.filename, RANGE.Sound.RCDegrees.duration, self.soundpath )
@@ -2106,21 +2293,45 @@ function RANGE:onafterImpact( From, Event, To, result, player )
      elseif result.quality == "EXCELLENT" then
        self.rangecontrol:NewTransmission( RANGE.Sound.RCExcellentHit.filename, RANGE.Sound.RCExcellentHit.duration, self.soundpath, nil, 0.5 )
      end
-
+    end
  end
  -- Unit.
  if player.unitname and not self.useSRS then
    -- Get unit.
    local unit = UNIT:FindByName( player.unitname )
    -- Send message.
      self:_DisplayMessageToGroup( unit, text, nil, true )
    self:T( self.id .. text )
  end
  -- Save results.
  if self.autosave then
    self:Save()
  end
  -- Send result to FunkMan, which creates fancy MatLab figures and sends them to Discord via a bot.
  if self.funkmanSocket then
    self.funkmanSocket:SendTable(result)
  end
 end
 --- Function called after strafing run.
 -- @param #RANGE self
 -- @param #string From From state.
 -- @param #string Event Event.
 -- @param #string To To state.
 -- @param #RANGE.PlayerData player Player data table.
 -- @param #RANGE.StrafeResult result Result of run.
 function RANGE:onafterStrafeResult( From, Event, To, player, result)
  if self.funkmanSocket then
    self.funkmanSocket:SendTable(result)
  end
 end
 --- Function called before save event. Checks that io and lfs are desanitized.
@@ -2175,7 +2386,7 @@ function RANGE:onafterSave( From, Event, To )
      local target = result.name
      local radial = result.radial
      local quality = result.quality
-      local time = UTILS.SecondsToClock( result.time )
+      local time = UTILS.SecondsToClock(result.time, true)
      local airframe = result.airframe
      local date = "n/a"
      if os then
@@ -2353,7 +2564,8 @@ end
 --- Start smoking a coordinate with a delay.
 -- @param #table _args Argements passed.
 function RANGE._DelayedSmoke( _args )
-  trigger.action.smoke( _args.coord:GetVec3(), _args.color )
+  _args.coord:Smoke(_args.color)
  --trigger.action.smoke( _args.coord:GetVec3(), _args.color )
 end
 --- Display top 10 stafing results of a specific player.
@@ -2363,7 +2575,7 @@ function RANGE:_DisplayMyStrafePitResults( _unitName )
  self:F( _unitName )
  -- Get player unit and name
-  local _unit, _playername = self:_GetPlayerUnitAndName( _unitName )
+  local _unit, _playername, _multiplayer = self:_GetPlayerUnitAndName( _unitName )
  if _unit and _playername then
@@ -2381,7 +2593,7 @@ function RANGE:_DisplayMyStrafePitResults( _unitName )
      -- Sort results table wrt number of hits.
      local _sort = function( a, b )
-        return a.hits > b.hits
+        return a.roundsHit > b.roundsHit
      end
      table.sort( _results, _sort )
@@ -2398,7 +2610,7 @@ function RANGE:_DisplayMyStrafePitResults( _unitName )
        -- Best result.
        if _bestMsg == "" then
-          _bestMsg = string.format( "Hits %d - %s - %s", _result.hits, _result.zone.name, _result.text )
+          _bestMsg = string.format( "Hits %d - %s - %s", result.roundsHit, result.name, result.roundsQuality)
        end
        -- 10 runs
@@ -2415,7 +2627,7 @@ function RANGE:_DisplayMyStrafePitResults( _unitName )
    end
    -- Send message to group.
-    self:_DisplayMessageToGroup( _unit, _message, nil, true, true )
+    self:_DisplayMessageToGroup( _unit, _message, nil, true, true, _multiplayer )
  end
 end
@@ -2426,7 +2638,7 @@ function RANGE:_DisplayStrafePitResults( _unitName )
  self:F( _unitName )
  -- Get player unit and name.
-  local _unit, _playername = self:_GetPlayerUnitAndName( _unitName )
+  local _unit, _playername, _multiplayer = self:_GetPlayerUnitAndName( _unitName )
  -- Check if we have a unit which is a player.
  if _unit and _playername then
@@ -2443,15 +2655,15 @@ function RANGE:_DisplayStrafePitResults( _unitName )
      -- Get the best result of the player.
      local _best = nil
      for _, _result in pairs( _results ) do
-        if _best == nil or _result.hits > _best.hits then
+        if _best == nil or _result.roundsHit > _best.roundsHit then
          _best = _result
        end
      end
      -- Add best result to table.
      if _best ~= nil then
-        local text = string.format( "%s: Hits %i - %s - %s", _playerName, _best.hits, _best.zone.name, _best.text )
+        local text = string.format( "%s: Hits %i - %s - %s", _playerName, _best.roundsHit, _best.name, _best.roundsQuality )
-        table.insert( _playerResults, { msg = text, hits = _best.hits } )
+        table.insert( _playerResults, { msg = text, hits = _best.roundsHit } )
      end
    end
@@ -2473,7 +2685,7 @@ function RANGE:_DisplayStrafePitResults( _unitName )
    end
    -- Send message.
-    self:_DisplayMessageToGroup( _unit, _message, nil, true, true )
+    self:_DisplayMessageToGroup( _unit, _message, nil, true, true, _multiplayer )
  end
 end
@@ -2484,7 +2696,7 @@ function RANGE:_DisplayMyBombingResults( _unitName )
  self:F( _unitName )
  -- Get player unit and name.
-  local _unit, _playername = self:_GetPlayerUnitAndName( _unitName )
+  local _unit, _playername, _multiplayer = self:_GetPlayerUnitAndName( _unitName )
  if _unit and _playername then
@@ -2530,7 +2742,7 @@ function RANGE:_DisplayMyBombingResults( _unitName )
    end
    -- Send message.
-    self:_DisplayMessageToGroup( _unit, _message, nil, true, true )
+    self:_DisplayMessageToGroup( _unit, _message, nil, true, true, _multiplayer )
  end
 end
@@ -2544,7 +2756,7 @@ function RANGE:_DisplayBombingResults( _unitName )
  local _playerResults = {}
  -- Get player unit and name.
-  local _unit, _player = self:_GetPlayerUnitAndName( _unitName )
+  local _unit, _player, _multiplayer = self:_GetPlayerUnitAndName( _unitName )
  -- Check if we have a unit with a player.
  if _unit and _player then
@@ -2588,7 +2800,7 @@ function RANGE:_DisplayBombingResults( _unitName )
    end
    -- Send message.
-    self:_DisplayMessageToGroup( _unit, _message, nil, true, true )
+    self:_DisplayMessageToGroup( _unit, _message, nil, true, true, _multiplayer )
  end
 end
@@ -2599,11 +2811,11 @@ function RANGE:_DisplayRangeInfo( _unitname )
  self:F( _unitname )
  -- Get player unit and player name.
-  local unit, playername = self:_GetPlayerUnitAndName( _unitname )
+  local unit, playername, _multiplayer = self:_GetPlayerUnitAndName( _unitname )
  -- Check if we have a player.
  if unit and playername then
-
+    self:I(playername)
    -- Message text.
    local text = ""
@@ -2667,12 +2879,34 @@ function RANGE:_DisplayRangeInfo( _unitname )
      text = text .. string.format( "Max strafing alt AGL: %s\n", tstrafemaxalt )
      text = text .. string.format( "# of strafe targets: %d\n", self.nstrafetargets )
      text = text .. string.format( "# of bomb targets: %d\n", self.nbombtargets )
      if self.instructor then
        local alive = "N/A"
        if self.instructorrelayname then
          local relay = UNIT:FindByName( self.instructorrelayname )
          if relay then
            --alive = tostring( relay:IsAlive() )
            alive = relay:IsAlive() and "ok" or "N/A"
          end
        end
        text = text .. string.format( "Instructor %.3f MHz (Relay=%s)\n", self.instructorfreq, alive )
      end  
      if self.rangecontrol then
        local alive = "N/A"
        if self.rangecontrolrelayname then
          local relay = UNIT:FindByName( self.rangecontrolrelayname )
          if relay then
            alive = tostring( relay:IsAlive() )
            alive = relay:IsAlive() and "ok" or "N/A"
          end
        end
        text = text .. string.format( "Control %.3f MHz (Relay=%s)\n", self.rangecontrolfreq, alive )
      end
      text = text .. texthit
      text = text .. textbomb
      text = text .. textdelay
      -- Send message to player group.
-      self:_DisplayMessageToGroup( unit, text, nil, true, true )
+      self:_DisplayMessageToGroup( unit, text, nil, true, true, _multiplayer )
      -- Debug output.
      self:T2( self.id .. text )
@@ -2687,7 +2921,7 @@ function RANGE:_DisplayBombTargets( _unitname )
  self:F( _unitname )
  -- Get player unit and player name.
-  local _unit, _playername = self:_GetPlayerUnitAndName( _unitname )
+  local _unit, _playername, _multiplayer = self:_GetPlayerUnitAndName( _unitname )
  -- Check if we have a player.
  if _unit and _playername then
@@ -2719,7 +2953,7 @@ function RANGE:_DisplayBombTargets( _unitname )
      end
    end
-    self:_DisplayMessageToGroup( _unit, _text, 120, true, true )
+    self:_DisplayMessageToGroup( _unit, _text, 120, true, true, _multiplayer )
  end
 end
@@ -2730,7 +2964,7 @@ function RANGE:_DisplayStrafePits( _unitname )
  self:F( _unitname )
  -- Get player unit and player name.
-  local _unit, _playername = self:_GetPlayerUnitAndName( _unitname )
+  local _unit, _playername, _multiplayer = self:_GetPlayerUnitAndName( _unitname )
  -- Check if we have a player.
  if _unit and _playername then
@@ -2759,7 +2993,7 @@ function RANGE:_DisplayStrafePits( _unitname )
      _text = _text .. string.format( "\n- %s: heading %03d°\n%s", _strafepit.name, heading, mycoord )
    end
-    self:_DisplayMessageToGroup( _unit, _text, nil, true, true )
+    self:_DisplayMessageToGroup( _unit, _text, nil, true, true, _multiplayer )
  end
 end
@@ -2770,7 +3004,7 @@ function RANGE:_DisplayRangeWeather( _unitname )
  self:F( _unitname )
  -- Get player unit and player name.
-  local unit, playername = self:_GetPlayerUnitAndName( _unitname )
+  local unit, playername, _multiplayer = self:_GetPlayerUnitAndName( _unitname )
  -- Check if we have a player.
  if unit and playername then
@@ -2819,7 +3053,7 @@ function RANGE:_DisplayRangeWeather( _unitname )
    end
    -- Send message to player group.
-    self:_DisplayMessageToGroup( unit, text, nil, true, true )
+    self:_DisplayMessageToGroup( unit, text, nil, true, true, _multiplayer )
    -- Debug output.
    self:T2( self.id .. text )
@@ -2949,9 +3183,16 @@ function RANGE:_CheckInZone( _unitName )
          self:_DisplayMessageToGroup( _unit, _msg, nil, true )
          if self.rangecontrol then
            if self.useSRS then
              local group = _unit:GetGroup()
              local text = "You left the strafing zone too quickly! No score!"
              --self.controlsrsQ:NewTransmission(text,nil,self.controlmsrs,nil,1,{group},text,10)
              self.controlsrsQ:NewTransmission(text,nil,self.controlmsrs,nil,1)
            else
              -- You left the strafing zone too quickly! No score!
              self.rangecontrol:NewTransmission( RANGE.Sound.RCLeftStrafePitTooQuickly.filename, RANGE.Sound.RCLeftStrafePitTooQuickly.duration, self.soundpath )
            end
-
+          end
        else
          -- Get current ammo.
@@ -2962,23 +3203,6 @@ function RANGE:_CheckInZone( _unitName )
          local _sound = nil -- #RANGE.Soundfile
          --[[ --RangeBoss commented out in order to implement strafe quality based on accuracy percentage, not the number of rounds on target
          -- Judge this pass. Text is displayed on summary.
          if _result.hits >= _result.zone.goodPass*2 then
            _result.text = "EXCELLENT PASS"
            _sound=RANGE.Sound.RCExcellentPass
          elseif _result.hits >= _result.zone.goodPass then
            _result.text = "GOOD PASS"
            _sound=RANGE.Sound.RCGoodPass
          elseif _result.hits >= _result.zone.goodPass/2 then
            _result.text = "INEFFECTIVE PASS"
            _sound=RANGE.Sound.RCIneffectivePass
          else
            _result.text = "POOR PASS"
            _sound=RANGE.Sound.RCPoorPass
          end
          ]]
          -- Calculate accuracy of run. Number of hits wrt number of rounds fired.
          local shots = _result.ammo - _ammo
          local accur = 0
@@ -3015,19 +3239,26 @@ function RANGE:_CheckInZone( _unitName )
          -- Message text.
          local _text = string.format( "%s, hits on target %s: %d", self:_myname( _unitName ), _result.zone.name, _result.hits )
          local ttstext = string.format( "%s, hits on target %s: %d.", self:_myname( _unitName ), _result.zone.name, _result.hits )
          if shots and accur then
            _text = _text .. string.format( "\nTotal rounds fired %d. Accuracy %.1f %%.", shots, accur )
            ttstext = ttstext .. string.format( ". Total rounds fired %d. Accuracy %.1f percent.", shots, accur )
          end
-          _text = _text .. string.format( "\n%s", _result.text )
+          _text = _text .. string.format( "\n%s", resulttext )
          ttstext = ttstext .. string.format( " %s", resulttext )
          -- Send message.
          self:_DisplayMessageToGroup( _unit, _text )
          -- Strafe result.
          local result = {} -- #RANGE.StrafeResult
          result.command=SOCKET.DataType.STRAFERESULT
          result.player=_playername
          result.name=_result.zone.name or "unknown"
          result.time = timer.getAbsTime()
          result.clock = UTILS.SecondsToClock(result.time)
          result.midate = UTILS.GetDCSMissionDate()
          result.theatre = env.mission.theatre
          result.roundsFired = shots
          result.roundsHit = _result.hits
          result.roundsQuality = resulttext
@@ -3046,6 +3277,9 @@ function RANGE:_CheckInZone( _unitName )
          -- Voice over.
          if self.rangecontrol then
            if self.useSRS then
              self.controlsrsQ:NewTransmission(ttstext,nil,self.controlmsrs,nil,1)
            else
              self.rangecontrol:NewTransmission( RANGE.Sound.RCHitsOnTarget.filename, RANGE.Sound.RCHitsOnTarget.duration, self.soundpath )
              self.rangecontrol:Number2Transmission( string.format( "%d", _result.hits ) )
              if shots and accur then
@@ -3057,6 +3291,7 @@ function RANGE:_CheckInZone( _unitName )
              end
              self.rangecontrol:NewTransmission( _sound.filename, _sound.duration, self.soundpath, nil, 0.5 )
            end
          end
          -- Set strafe status to nil.
          self.strafeStatus[_unitID] = nil
@@ -3094,8 +3329,12 @@ function RANGE:_CheckInZone( _unitName )
          local _msg = string.format( "%s, rolling in on strafe pit %s.", self:_myname( _unitName ), target.name )
          if self.rangecontrol then
            if self.useSRS then
              self.controlsrsQ:NewTransmission(_msg,nil,self.controlmsrs,nil,1)
            else
              self.rangecontrol:NewTransmission( RANGE.Sound.RCRollingInOnStrafeTarget.filename, RANGE.Sound.RCRollingInOnStrafeTarget.duration, self.soundpath )
            end
          end
          -- Send message.
          self:_DisplayMessageToGroup( _unit, _msg, 10, true )
@@ -3214,10 +3453,10 @@ function RANGE:_AddF10Commands( _unitName )
        local _StrPits = MENU_GROUP_COMMAND:New( group, "Strafe Pits", _infoPath, self._DisplayStrafePits, self, _unitName ):Refresh()
      end
    else
-      self:E( self.id .. "Could not find group or group ID in AddF10Menu() function. Unit name: " .. _unitName )
+      self:E( self.id .. "Could not find group or group ID in AddF10Menu() function. Unit name: " .. _unitName or "N/A")
    end
  else
-    self:E( self.id .. "Player unit does not exist in AddF10Menu() function. Unit name: " .. _unitName )
+    self:E( self.id .. "Player unit does not exist in AddF10Menu() function. Unit name: " .. _unitName or "N/A")
  end
 end
@@ -3432,7 +3671,8 @@ end
 -- @param #number _time Duration how long the message is displayed.
 -- @param #boolean _clear Clear up old messages.
 -- @param #boolean display If true, display message regardless of player setting "Messages Off".
-function RANGE:_DisplayMessageToGroup( _unit, _text, _time, _clear, display )
+-- @param #boolean _togroup If true, display the message to the group in any case
 function RANGE:_DisplayMessageToGroup( _unit, _text, _time, _clear, display, _togroup )
  self:F( { unit = _unit, text = _text, time = _time, clear = _clear } )
  -- Defaults
@@ -3453,21 +3693,27 @@ function RANGE:_DisplayMessageToGroup( _unit, _text, _time, _clear, display )
    -- Group ID.
    local _gid = _unit:GetGroup():GetID()
    local _grp = _unit:GetGroup()
    -- Get playername and player settings
    local _, playername = self:_GetPlayerUnitAndName( _unit:GetName() )
    local playermessage = self.PlayerSettings[playername].messages
    -- Send message to player if messages enabled and not only for the examiner.
    if _gid and (playermessage == true or display) and (not self.examinerexclusive) then
-      trigger.action.outTextForGroup( _gid, _text, _time, _clear )
+      if _togroup and _grp then
        local m = MESSAGE:New(_text,_time,nil,_clear):ToGroup(_grp)
      else
        local m = MESSAGE:New(_text,_time,nil,_clear):ToUnit(_unit)
      end
    end
    -- Send message to examiner.
    if self.examinergroupname ~= nil then
-      local _examinerid = GROUP:FindByName( self.examinergroupname ):GetID()
+      local _examinerid = GROUP:FindByName( self.examinergroupname )
      if _examinerid then
-        trigger.action.outTextForGroup( _examinerid, _text, _time, _clear )
+        local m = MESSAGE:New(_text,_time,nil,_clear):ToGroup(_examinerid)
      end
    end
  end
@@ -3480,14 +3726,14 @@ end
 function RANGE:_SmokeBombImpactOnOff( unitname )
  self:F( unitname )
-  local unit, playername = self:_GetPlayerUnitAndName( unitname )
+  local unit, playername, _multiplayer = self:_GetPlayerUnitAndName( unitname )
  if unit and playername then
    local text
    if self.PlayerSettings[playername].smokebombimpact == true then
      self.PlayerSettings[playername].smokebombimpact = false
      text = string.format( "%s, %s, smoking impact points of bombs is now OFF.", self.rangename, playername )
    else
-      self.PlayerSettigs[playername].smokebombimpact = true
+      self.PlayerSettings[playername].smokebombimpact = true
      text = string.format( "%s, %s, smoking impact points of bombs is now ON.", self.rangename, playername )
    end
    self:_DisplayMessageToGroup( unit, text, 5, false, true )
@@ -3501,14 +3747,14 @@ end
 function RANGE:_SmokeBombDelayOnOff( unitname )
  self:F( unitname )
-  local unit, playername = self:_GetPlayerUnitAndName( unitname )
+  local unit, playername, _multiplayer = self:_GetPlayerUnitAndName( unitname )
  if unit and playername then
    local text
    if self.PlayerSettings[playername].delaysmoke == true then
      self.PlayerSettings[playername].delaysmoke = false
      text = string.format( "%s, %s, delayed smoke of bombs is now OFF.", self.rangename, playername )
    else
-      self.PlayerSettigs[playername].delaysmoke = true
+      self.PlayerSettings[playername].delaysmoke = true
      text = string.format( "%s, %s, delayed smoke of bombs is now ON.", self.rangename, playername )
    end
    self:_DisplayMessageToGroup( unit, text, 5, false, true )
@@ -3522,7 +3768,7 @@ end
 function RANGE:_MessagesToPlayerOnOff( unitname )
  self:F( unitname )
-  local unit, playername = self:_GetPlayerUnitAndName( unitname )
+  local unit, playername, _multiplayer = self:_GetPlayerUnitAndName( unitname )
  if unit and playername then
    local text
    if self.PlayerSettings[playername].messages == true then
@@ -3543,7 +3789,7 @@ function RANGE:_TargetsheetOnOff( _unitname )
  self:F2( _unitname )
  -- Get player unit and player name.
-  local unit, playername = self:_GetPlayerUnitAndName( _unitname )
+  local unit, playername, _multiplayer = self:_GetPlayerUnitAndName( _unitname )
  -- Check if we have a player.
  if unit and playername then
@@ -3585,7 +3831,7 @@ end
 function RANGE:_FlareDirectHitsOnOff( unitname )
  self:F( unitname )
-  local unit, playername = self:_GetPlayerUnitAndName( unitname )
+  local unit, playername, _multiplayer = self:_GetPlayerUnitAndName( unitname )
  if unit and playername then
    local text
    if self.PlayerSettings[playername].flaredirecthits == true then
@@ -3804,12 +4050,14 @@ end
 -- @param #string _unitName Name of the player unit.
 -- @return Wrapper.Unit#UNIT Unit of player.
 -- @return #string Name of the player.
-- @return nil If player does not exist.
+-- @return #boolean If true, group has > 1 player in it
 function RANGE:_GetPlayerUnitAndName( _unitName )
  self:F2( _unitName )
  if _unitName ~= nil then
    local multiplayer = false
    -- Get DCS unit from its name.
    local DCSunit = Unit.getByName( _unitName )
@@ -3820,7 +4068,12 @@ function RANGE:_GetPlayerUnitAndName( _unitName )
      self:T2( { DCSunit = DCSunit, unit = unit, playername = playername } )
      if DCSunit and unit and playername then
-        return unit, playername
+        self:F2(playername)
        local grp = unit:GetGroup()
        if grp and grp:CountAliveUnits() > 1 then
          multiplayer = true
        end
        return unit, playername, multiplayer
      end
    end
@@ -3828,7 +4081,7 @@ function RANGE:_GetPlayerUnitAndName( _unitName )
  end
  -- Return nil if we could not find a player.
-  return nil, nil
+  return nil, nil, nil
 end
 --- Returns a string which consists of the player name.
@@ -3836,13 +4089,15 @@ end
 -- @param #string unitname Name of the player unit.
 function RANGE:_myname( unitname )
  self:F2( unitname )
-
+  local pname = "Ghost 1 1"
  local unit = UNIT:FindByName( unitname )
-  local pname = unit:GetPlayerName()
+  if unit and unit:IsAlive() then
-  -- local csign = unit:GetCallsign()
+    local grp = unit:GetGroup()
-
+    if grp and grp:IsAlive() then
-  -- return string.format("%s (%s)", csign, pname)
+      pname = grp:GetCustomCallSign(true,true)
-  return string.format( "%s", pname )
+    end
  end  
  return pname
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
--- a/Development/Moose/Functional/Scoring.lua
+++ b/Development/Moose/Functional/Scoring.lua
@@ -1,4 +1,4 @@
--- **Functional** - Administer the scoring of player achievements, and create a CSV file logging the scoring events for use at team or squadron websites.
+--- **Functional** - Administer the scoring of player achievements, file and log the scoring events for use at websites.
 --
 -- ===
 --
@@ -12,7 +12,7 @@
 --   * Score the hits and destroys of units.
 --   * Score the hits and destroys of statics.
 --   * Score the hits and destroys of scenery.
--   * Log scores into a CSV file.
+--   * (optional) Log scores into a CSV file.
 --   * Connect to a remote server using JSON and IP.
 --
 -- ===
@@ -59,7 +59,7 @@
 --
 -- ![Banner Image](..\Presentations\SCORING\Dia9.JPG)
 --
-- Various @{Zone}s can be defined for which scores are also granted when objects in that @{Zone} are destroyed.
+-- Various @{Core.Zone}s can be defined for which scores are also granted when objects in that @{Core.Zone} are destroyed.
 -- This is **specifically useful** to designate **scenery targets on the map** that will generate points when destroyed.
 --
 -- With a small change in MissionScripting.lua, the scoring results can also be logged in a **CSV file**.
@@ -115,7 +115,7 @@
 --
 -- Special targets can be set that will give extra scores to the players when these are destroyed.
 -- Use the methods @{#SCORING.AddUnitScore}() and @{#SCORING.RemoveUnitScore}() to specify a special additional score for a specific @{Wrapper.Unit}s.
-- Use the methods @{#SCORING.AddStaticScore}() and @{#SCORING.RemoveStaticScore}() to specify a special additional score for a specific @{Static}s.
+-- Use the methods @{#SCORING.AddStaticScore}() and @{#SCORING.RemoveStaticScore}() to specify a special additional score for a specific @{Wrapper.Static}s.
 -- Use the method @{#SCORING.SetGroupGroup}() to specify a special additional score for a specific @{Wrapper.Group}s.
 --
 --      local Scoring = SCORING:New( "Scoring File" )
@@ -131,11 +131,11 @@
 -- # Define destruction zones that will give extra scores:
 --
 -- Define zones of destruction. Any object destroyed within the zone of the given category will give extra points.
-- Use the method @{#SCORING.AddZoneScore}() to add a @{Zone} for additional scoring.
+-- Use the method @{#SCORING.AddZoneScore}() to add a @{Core.Zone} for additional scoring.
-- Use the method @{#SCORING.RemoveZoneScore}() to remove a @{Zone} for additional scoring.
+-- Use the method @{#SCORING.RemoveZoneScore}() to remove a @{Core.Zone} for additional scoring.
-- There are interesting variations that can be achieved with this functionality. For example, if the @{Zone} is a @{Core.Zone#ZONE_UNIT},
+-- There are interesting variations that can be achieved with this functionality. For example, if the @{Core.Zone} is a @{Core.Zone#ZONE_UNIT},
-- then the zone is a moving zone, and anything destroyed within that @{Zone} will generate points.
+-- then the zone is a moving zone, and anything destroyed within that @{Core.Zone} will generate points.
-- The other implementation could be to designate a scenery target (a building) in the mission editor surrounded by a @{Zone},
+-- The other implementation could be to designate a scenery target (a building) in the mission editor surrounded by a @{Core.Zone},
 -- just large enough around that building.
 --
 -- # Add extra Goal scores upon an event or a condition:
@@ -225,6 +225,7 @@ SCORING = {
  ClassName = "SCORING",
  ClassID = 0,
  Players = {},
  AutoSave = true,
 }
 local _SCORINGCoalition = {
@@ -306,6 +307,7 @@ function SCORING:New( GameName )
  end )
  -- Create the CSV file.
  self.AutoSave = true
  self:OpenCSV( GameName )
  return self
@@ -373,11 +375,11 @@ function SCORING:RemoveUnitScore( ScoreUnit )
  return self
 end
--- Add a @{Static} for additional scoring when the @{Static} is destroyed.
+--- Add a @{Wrapper.Static} for additional scoring when the @{Wrapper.Static} is destroyed.
-- Note that if there was already a @{Static} declared within the scoring with the same name,
+-- Note that if there was already a @{Wrapper.Static} declared within the scoring with the same name,
-- then the old @{Static}  will be replaced with the new @{Static}.
+-- then the old @{Wrapper.Static}  will be replaced with the new @{Wrapper.Static}.
 -- @param #SCORING self
-- @param Wrapper.Static#UNIT ScoreStatic The @{Static} for which the Score needs to be given.
+-- @param Wrapper.Static#UNIT ScoreStatic The @{Wrapper.Static} for which the Score needs to be given.
 -- @param #number Score The Score value.
 -- @return #SCORING
 function SCORING:AddStaticScore( ScoreStatic, Score )
@@ -389,9 +391,9 @@ function SCORING:AddStaticScore( ScoreStatic, Score )
  return self
 end
--- Removes a @{Static} for additional scoring when the @{Static} is destroyed.
+--- Removes a @{Wrapper.Static} for additional scoring when the @{Wrapper.Static} is destroyed.
 -- @param #SCORING self
-- @param Wrapper.Static#UNIT ScoreStatic The @{Static} for which the Score needs to be given.
+-- @param Wrapper.Static#UNIT ScoreStatic The @{Wrapper.Static} for which the Score needs to be given.
 -- @return #SCORING
 function SCORING:RemoveStaticScore( ScoreStatic )
@@ -419,11 +421,11 @@ function SCORING:AddScoreGroup( ScoreGroup, Score )
  return self
 end
--- Add a @{Zone} to define additional scoring when any object is destroyed in that zone.
+--- Add a @{Core.Zone} to define additional scoring when any object is destroyed in that zone.
-- Note that if a @{Zone} with the same name is already within the scoring added, the @{Zone} (type) and Score will be replaced!
+-- Note that if a @{Core.Zone} with the same name is already within the scoring added, the @{Core.Zone} (type) and Score will be replaced!
 -- This allows for a dynamic destruction zone evolution within your mission.
 -- @param #SCORING self
-- @param Core.Zone#ZONE_BASE ScoreZone The @{Zone} which defines the destruction score perimeters.
+-- @param Core.Zone#ZONE_BASE ScoreZone The @{Core.Zone} which defines the destruction score perimeters.
 -- Note that a zone can be a polygon or a moving zone.
 -- @param #number Score The Score value.
 -- @return #SCORING
@@ -438,11 +440,11 @@ function SCORING:AddZoneScore( ScoreZone, Score )
  return self
 end
--- Remove a @{Zone} for additional scoring.
+--- Remove a @{Core.Zone} for additional scoring.
-- The scoring will search if any @{Zone} is added with the given name, and will remove that zone from the scoring.
+-- The scoring will search if any @{Core.Zone} is added with the given name, and will remove that zone from the scoring.
 -- This allows for a dynamic destruction zone evolution within your mission.
 -- @param #SCORING self
-- @param Core.Zone#ZONE_BASE ScoreZone The @{Zone} which defines the destruction score perimeters.
+-- @param Core.Zone#ZONE_BASE ScoreZone The @{Core.Zone} which defines the destruction score perimeters.
 -- Note that a zone can be a polygon or a moving zone.
 -- @return #SCORING
 function SCORING:RemoveZoneScore( ScoreZone )
@@ -656,11 +658,12 @@ function SCORING:_AddPlayerFromUnit( UnitData )
      if self.Players[PlayerName].UnitCoalition ~= UnitCoalition and self.penaltyoncoalitionchange then
        self.Players[PlayerName].Penalty = self.Players[PlayerName].Penalty + self.CoalitionChangePenalty or 50
        self.Players[PlayerName].PenaltyCoalition = self.Players[PlayerName].PenaltyCoalition + 1
-        MESSAGE:NewType( self.DisplayMessagePrefix .. "Player '" .. PlayerName .. "' changed coalition from " .. _SCORINGCoalition[self.Players[PlayerName].UnitCoalition] .. " to " .. _SCORINGCoalition[UnitCoalition] .. "(changed " .. self.Players[PlayerName].PenaltyCoalition .. " times the coalition). " ..
+        MESSAGE:NewType( self.DisplayMessagePrefix .. "Player '" .. PlayerName .. "' changed coalition from " .. _SCORINGCoalition[self.Players[PlayerName].UnitCoalition] .. " to " .. _SCORINGCoalition[UnitCoalition] ..
-                         self.CoalitionChangePenalty .. "Penalty points added.",
+          "(changed " .. self.Players[PlayerName].PenaltyCoalition .. " times the coalition). ".. self.CoalitionChangePenalty .."Penalty points added.",
-                         MESSAGE.Type.Information )
+          MESSAGE.Type.Information
-               :ToAll()
+        ):ToAll()
-        self:ScoreCSV( PlayerName, "", "COALITION_PENALTY", 1, -1 * self.CoalitionChangePenalty, self.Players[PlayerName].UnitName, _SCORINGCoalition[self.Players[PlayerName].UnitCoalition], _SCORINGCategory[self.Players[PlayerName].UnitCategory], self.Players[PlayerName].UnitType, UnitName, _SCORINGCoalition[UnitCoalition], _SCORINGCategory[UnitCategory], UnitData:GetTypeName() )
+        self:ScoreCSV( PlayerName, "", "COALITION_PENALTY",  1, -1*self.CoalitionChangePenalty, self.Players[PlayerName].UnitName, _SCORINGCoalition[self.Players[PlayerName].UnitCoalition], _SCORINGCategory[self.Players[PlayerName].UnitCategory], self.Players[PlayerName].UnitType,
          UnitName, _SCORINGCoalition[UnitCoalition], _SCORINGCategory[UnitCategory], UnitData:GetTypeName() )
      end
    end
@@ -1116,12 +1119,14 @@ function SCORING:_EventOnHit( Event )
              PlayerHit.Penalty = PlayerHit.Penalty + 10 --* self.ScaleDestroyPenalty
              PlayerHit.PenaltyHit = PlayerHit.PenaltyHit + 1 * self.ScaleDestroyPenalty
-              MESSAGE:NewType( self.DisplayMessagePrefix .. "Player '" .. Event.WeaponPlayerName .. "' hit friendly target " .. TargetUnitCategory .. " ( " .. TargetType .. " ) " ..
+              MESSAGE
                :NewType( self.DisplayMessagePrefix .. "Player '" .. Event.WeaponPlayerName .. "' hit friendly target " .. 
                      TargetUnitCategory .. " ( " .. TargetType .. " ) " .. 
                      "Penalty: -" .. PlayerHit.Penalty .. " = " .. Player.Score - Player.Penalty,
-                               MESSAGE.Type.Update )
+                      MESSAGE.Type.Update
                    )
                :ToAllIf( self:IfMessagesHit() and self:IfMessagesToAll() )
                :ToCoalitionIf( Event.WeaponCoalition, self:IfMessagesHit() and self:IfMessagesToCoalition() )
              self:ScoreCSV( Event.WeaponPlayerName, TargetPlayerName, "HIT_PENALTY", 1, -10, Event.WeaponName, Event.WeaponCoalition, Event.WeaponCategory, Event.WeaponTypeName, TargetUnitName, TargetUnitCoalition, TargetUnitCategory, TargetUnitType )
            else
              Player.Score = Player.Score + 1
@@ -1652,7 +1657,8 @@ function SCORING:ReportScoreGroupDetailed( PlayerGroup )
      local PlayerScore = ScoreHits + ScoreDestroys + ScoreCoalitionChanges + ScoreGoals + ScoreMissions
      local PlayerPenalty = PenaltyHits + PenaltyDestroys + PenaltyCoalitionChanges + PenaltyGoals + PenaltyMissions
-      PlayerMessage = string.format( "Player '%s' Score = %d ( %d Score, -%d Penalties )%s%s%s%s%s",
+      PlayerMessage = 
        string.format( "Player '%s' Score = %d ( %d Score, -%d Penalties )%s%s%s%s%s", 
                       PlayerName, 
                       PlayerScore - PlayerPenalty, 
                       PlayerScore, 
@@ -1707,7 +1713,8 @@ function SCORING:ReportScoreAllSummary( PlayerGroup )
      local PlayerScore = ScoreHits + ScoreDestroys + ScoreCoalitionChanges + ScoreGoals + ScoreMissions
      local PlayerPenalty = PenaltyHits + PenaltyDestroys + PenaltyCoalitionChanges + PenaltyGoals + PenaltyMissions
-      PlayerMessage = string.format( "Player '%s' Score = %d ( %d Score, -%d Penalties )",
+      PlayerMessage = 
        string.format( "Player '%s' Score = %d ( %d Score, -%d Penalties )", 
                       PlayerName, 
                       PlayerScore - PlayerPenalty, 
                       PlayerScore, 
@@ -1743,7 +1750,7 @@ end
 function SCORING:OpenCSV( ScoringCSV )
  self:F( ScoringCSV )
-  if lfs and io and os then
+  if lfs and io and os and self.AutoSave then
    if ScoringCSV then
      self.ScoringCSV = ScoringCSV
      local fdir = lfs.writedir() .. [[Logs\]] .. self.ScoringCSV .. " " .. os.date( "%Y-%m-%d %H-%M-%S" ) .. ".csv"
@@ -1823,7 +1830,7 @@ function SCORING:ScoreCSV( PlayerName, TargetPlayerName, ScoreType, ScoreTimes,
  TargetUnitType = TargetUnitType or ""
  TargetUnitName = TargetUnitName or ""
-  if lfs and io and os then
+  if lfs and io and os and self.AutoSave then
    self.CSVFile:write(
      '"' .. self.GameName        .. '"' .. ',' ..
      '"' .. self.RunTime         .. '"' .. ',' ..
@@ -1847,9 +1854,20 @@ function SCORING:ScoreCSV( PlayerName, TargetPlayerName, ScoreType, ScoreTimes,
  end
 end
 --- Close CSV file
 -- @param #SCORING self
 -- @return #SCORING self
 function SCORING:CloseCSV()
-  if lfs and io and os then
+  if lfs and io and os and self.AutoSave then
    self.CSVFile:close()
  end
 end
 --- Registers a score for a player.
 -- @param #SCORING self
 -- @param #boolean OnOff Switch saving to CSV on = true or off = false
 -- @return #SCORING self
 function SCORING:SwitchAutoSave(OnOff)
  self.AutoSave = OnOff
  return self
 end
--- a/Development/Moose/Functional/Sead.lua
+++ b/Development/Moose/Functional/Sead.lua
@@ -1,4 +1,4 @@
--- **Functional** -- Make SAM sites execute evasive and defensive behaviour when being fired upon.
+--- **Functional** - Make SAM sites execute evasive and defensive behaviour when being fired upon.
 --
 -- ===
 --
@@ -79,6 +79,7 @@ SEAD = {
  ["Kh25"] = "Kh25",
  ["BGM_109"] = "BGM_109",
  ["AGM_154"] = "AGM_154",
  ["HY-2"] = "HY-2",
  }
  --- Missile enumerators - from DCS ME and Wikipedia
@@ -98,6 +99,7 @@ SEAD = {
  ["Kh25"] = {25, 0.8},
  ["BGM_109"] = {460, 0.705}, --in-game ~465kn
  ["AGM_154"] = {130, 0.61},
  ["HY-2"] = {90,1},
  }
 --- Creates the main object which is handling defensive actions for SA sites or moving SA vehicles.
--- a/Development/Moose/Functional/Shorad.lua
+++ b/Development/Moose/Functional/Shorad.lua
@@ -1,9 +1,11 @@
--- **Functional** -- Short Range Air Defense System
+--- **Functional** - Short Range Air Defense System.
 -- 
 -- ===
 --
-- **SHORAD** - Short Range Air Defense System
+-- ## Features: 
-- Controls a network of short range air/missile defense groups.
+-- 
 --   * Short Range Air Defense System
 --   * Controls a network of short range air/missile defense groups.
 -- 
 -- ===
 -- 
@@ -18,7 +20,7 @@
 -- @module Functional.Shorad
 -- @image Functional.Shorad.jpg
 --
-- Date: July 2021
+-- Date: Nov 2021
 -------------------------------------------------------------------------
 --- **SHORAD** class, extends Core.Base#BASE
@@ -41,6 +43,7 @@
 -- @field #boolean UseEmOnOff Decide if we are using Emission on/off (default) or AlarmState red/green.
 -- @extends Core.Base#BASE
 --- *Good friends are worth defending.* Mr Tushman, Wonder (the Movie) 
 -- 
 -- Simple Class for a more intelligent Short Range Air Defense System
@@ -131,6 +134,7 @@ do
  ["Kh29"] = "Kh29",
  ["Kh31"] = "Kh31",
  ["Kh66"] = "Kh66",
  --["BGM_109"] = "BGM_109",
  }
  --- Instantiates a new SHORAD object
@@ -138,13 +142,13 @@ do
  -- @param #string Name Name of this SHORAD
  -- @param #string ShoradPrefix Filter for the Shorad #SET_GROUP
  -- @param Core.Set#SET_GROUP Samset The #SET_GROUP of SAM sites to defend
-  -- @param #number Radius Defense radius in meters, used to switch on groups
+  -- @param #number Radius Defense radius in meters, used to switch on SHORAD groups **within** this radius
  -- @param #number ActiveTimer Determines how many seconds the systems stay on red alert after wake-up call
  -- @param #string Coalition Coalition, i.e. "blue", "red", or "neutral"
  -- @param #boolean UseEmOnOff Use Emissions On/Off rather than Alarm State Red/Green (default: use Emissions switch)
  -- @retunr #SHORAD self
  function SHORAD:New(Name, ShoradPrefix, Samset, Radius, ActiveTimer, Coalition, UseEmOnOff) 
-    local self = BASE:Inherit( self, BASE:New() )
+    local self = BASE:Inherit( self, FSM:New() )
    self:T({Name, ShoradPrefix, Samset, Radius, ActiveTimer, Coalition})
    local GroupSet = SET_GROUP:New():FilterPrefixes(ShoradPrefix):FilterCoalitions(Coalition):FilterCategoryGround():FilterStart()
@@ -162,11 +166,17 @@ do
    self.DefenseLowProb = 70 -- probability to detect a missile shot, low margin
    self.DefenseHighProb = 90  -- probability to detect a missile shot, high margin
    self.UseEmOnOff = UseEmOnOff or false -- Decide if we are using Emission on/off (default) or AlarmState red/green
-    self:I("*** SHORAD - Started Version 0.2.8")
+    self:I("*** SHORAD - Started Version 0.3.1")
    -- Set the string id for output to DCS.log file.
    self.lid=string.format("SHORAD %s | ", self.name)
    self:_InitState()
    self:HandleEvent(EVENTS.Shot, self.HandleEventShot)
    -- Start State.
    self:SetStartState("Running")
    self:AddTransition("*",             "WakeUpShorad",                 "*")
    self:AddTransition("*",             "CalculateHitZone",             "*")
    return self
  end
@@ -310,7 +320,7 @@ do
    local hit = false
    if self.DefendHarms then
      for _,_name in pairs (SHORAD.Harms) do
-        if string.find(WeaponName,_name,1) then hit = true end
+        if string.find(WeaponName,_name,1,true) then hit = true end
      end
    end
    return hit
@@ -326,7 +336,7 @@ do
    local hit = false
    if self.DefendMavs then
      for _,_name in pairs (SHORAD.Mavs) do
-        if string.find(WeaponName,_name,1) then hit = true end
+        if string.find(WeaponName,_name,1,true) then hit = true end
      end
    end
    return hit
@@ -367,7 +377,7 @@ do
    local returnname = false
    for _,_groups in pairs (shoradset) do
      local groupname = _groups:GetName()
-      if string.find(groupname, tgtgrp, 1) then
+      if string.find(groupname, tgtgrp, 1, true) then
        returnname = true
        --_groups:RelocateGroundRandomInRadius(7,100,false,false) -- be a bit evasive
      end
@@ -388,7 +398,7 @@ do
    local returnname = false
    for _,_groups in pairs (shoradset) do
      local groupname = _groups:GetName()
-      if string.find(groupname, tgtgrp, 1) then
+      if string.find(groupname, tgtgrp, 1, true) then
        returnname = true
      end
    end
@@ -400,6 +410,7 @@ do
  -- @return #boolean Returns true for a detection, else false
  function SHORAD:_ShotIsDetected()
    self:T(self.lid .. " _ShotIsDetected")
    if self.debug then return true end
    local IsDetected = false
    local DetectionProb = math.random(self.DefenseLowProb, self.DefenseHighProb)  -- reference value
    local ActualDetection = math.random(1,100) -- value for this shot
@@ -423,7 +434,7 @@ do
  -- mymantis = MANTIS:New("BlueMantis","Blue SAM","Blue EWR",nil,"blue",false,"Blue Awacs")
  -- mymantis:AddShorad(myshorad,720)
  -- mymantis:Start()
-  function SHORAD:WakeUpShorad(TargetGroup, Radius, ActiveTimer, TargetCat)
+  function SHORAD:onafterWakeUpShorad(From, Event, To, TargetGroup, Radius, ActiveTimer, TargetCat)
    self:T(self.lid .. " WakeUpShorad")
    self:T({TargetGroup, Radius, ActiveTimer, TargetCat})
    local targetcat = TargetCat or Object.Category.UNIT
@@ -477,6 +488,76 @@ do
    return self
  end
 --- (Internal) Calculate hit zone of an AGM-88
 -- @param #SHORAD self
 -- @param #table SEADWeapon DCS.Weapon object
 -- @param Core.Point#COORDINATE pos0 Position of the plane when it fired
 -- @param #number height Height when the missile was fired
 -- @param Wrapper.Group#GROUP SEADGroup Attacker group
 -- @return #SHORAD self 
 function SHORAD:onafterCalculateHitZone(From,Event,To,SEADWeapon,pos0,height,SEADGroup)
  self:T("**** Calculating hit zone")
  if SEADWeapon and SEADWeapon:isExist() then
    --local pos = SEADWeapon:getPoint()
    -- postion and height
    local position = SEADWeapon:getPosition()
    local mheight = height
    -- heading
    local wph = math.atan2(position.x.z, position.x.x)      
    if wph < 0 then
      wph=wph+2*math.pi
    end   
    wph=math.deg(wph)
    -- velocity
    local wpndata = SEAD.HarmData["AGM_88"]
    local mveloc = math.floor(wpndata[2] * 340.29)
    local c1 = (2*mheight*9.81)/(mveloc^2)
    local c2 = (mveloc^2) / 9.81
    local Ropt = c2 * math.sqrt(c1+1) 
    if height <= 5000 then
      Ropt = Ropt * 0.72
    elseif height <= 7500 then
      Ropt = Ropt * 0.82  
    elseif height <= 10000 then
      Ropt = Ropt * 0.87
    elseif height <= 12500 then
      Ropt = Ropt * 0.98
    end
    -- look at a couple of zones across the trajectory
    for n=1,3 do
      local dist = Ropt - ((n-1)*20000)
      local predpos= pos0:Translate(dist,wph)
      if predpos then
        local targetzone = ZONE_RADIUS:New("Target Zone",predpos:GetVec2(),20000)
        if self.debug then
          predpos:MarkToAll(string.format("height=%dm | heading=%d | velocity=%ddeg | Ropt=%dm",mheight,wph,mveloc,Ropt),false)
          targetzone:DrawZone(coalition.side.BLUE,{0,0,1},0.2,nil,nil,3,true)
        end  
        local seadset = self.Groupset
        local tgtcoord = targetzone:GetRandomPointVec2()
        local tgtgrp = seadset:FindNearestGroupFromPointVec2(tgtcoord)
        local _targetgroup = nil
        local _targetgroupname = "none"
        local _targetskill = "Random"
        if tgtgrp and tgtgrp:IsAlive() then
          _targetgroup = tgtgrp
          _targetgroupname = tgtgrp:GetName() -- group name
          _targetskill = tgtgrp:GetUnit(1):GetSkill()
          self:T("*** Found Target = ".. _targetgroupname)
          self:WakeUpShorad(_targetgroupname, self.Radius, self.ActiveTimer, Object.Category.UNIT)
        end
      end
    end     
  end
  return self
 end
  --- Main function - work on the EventData
  -- @param #SHORAD self
  -- @param Core.Event#EVENTDATA EventData The event details table data set
@@ -504,13 +585,48 @@ do
      if (self:_CheckHarms(ShootingWeaponName) or self:_CheckMavs(ShootingWeaponName)) and IsDetected then
        -- get target data
        local targetdata = EventData.Weapon:getTarget() -- Identify target
        -- Is there target data?
        if not targetdata or self.debug then 
          if string.find(ShootingWeaponName,"AGM_88",1,true) then
            self:I("**** Tracking AGM-88 with no target data.")
            local pos0 = EventData.IniUnit:GetCoordinate()
            local fheight = EventData.IniUnit:GetHeight()
            self:__CalculateHitZone(20,ShootingWeapon,pos0,fheight,EventData.IniGroup)
          end  
          return self
        end
        local targetcat = targetdata:getCategory() -- Identify category
        self:T(string.format("Target Category (3=STATIC, 1=UNIT)= %s",tostring(targetcat)))
        self:T({targetdata})
        local targetunit = nil
        if targetcat == Object.Category.UNIT then -- UNIT
          targetunit = UNIT:Find(targetdata)
        elseif targetcat == Object.Category.STATIC then  -- STATIC
-          targetunit = STATIC:Find(targetdata)
+          --self:T("Static Target Data")
          --self:T({targetdata:isExist()})
          --self:T({targetdata:getPoint()})
          local tgtcoord = COORDINATE:NewFromVec3(targetdata:getPoint())
          --tgtcoord:MarkToAll("Missile Target",true)
          local tgtgrp1 = self.Samset:FindNearestGroupFromPointVec2(tgtcoord)
          local tgtcoord1 = tgtgrp1:GetCoordinate()
          --tgtcoord1:MarkToAll("Close target SAM",true)
          local tgtgrp2 = self.Groupset:FindNearestGroupFromPointVec2(tgtcoord)
          local tgtcoord2 = tgtgrp2:GetCoordinate()
          --tgtcoord2:MarkToAll("Close target SHORAD",true)
          local dist1 = tgtcoord:Get2DDistance(tgtcoord1)
          local dist2 = tgtcoord:Get2DDistance(tgtcoord2)
          if dist1 < dist2 then
            targetunit = tgtgrp1
            targetcat = Object.Category.UNIT
          else
            targetunit = tgtgrp2
            targetcat = Object.Category.UNIT
          end
        end   
        --local targetunitname = Unit.getName(targetdata) -- Unit name
        if targetunit and targetunit:IsAlive() then
@@ -519,7 +635,11 @@ do
          local targetgroup = nil
          local targetgroupname = "none"
          if targetcat == Object.Category.UNIT then
            if targetunit.ClassName == "UNIT" then
              targetgroup = targetunit:GetGroup()
            elseif targetunit.ClassName == "GROUP" then
              targetgroup = targetunit
            end
            targetgroupname = targetgroup:GetName() -- group name
          elseif targetcat == Object.Category.STATIC then
            targetgroup = targetunit
@@ -540,6 +660,7 @@ do
        end  
      end
    end
    return self
  end 
 --
 end
--- a/Development/Moose/Functional/Suppression.lua
+++ b/Development/Moose/Functional/Suppression.lua
@@ -85,6 +85,7 @@
 -- @field #boolean eventmoose If true, events are handled by MOOSE. If false, events are handled directly by DCS eventhandler. Default true.
 -- @field Core.Zone#ZONE BattleZone 
 -- @field #boolean AutoEngage
 -- @field #table waypoints Waypoints of the group as defined in the ME.
 -- @extends Core.Fsm#FSM_CONTROLLABLE
 -- 
@@ -265,6 +266,7 @@ SUPPRESSION={
  DefaultAlarmState = "Auto",
  DefaultROE        = "Weapon Free",
  eventmoose        = true,
  waypoints         = {},
 }
 --- Enumerator of possible rules of engagement.
@@ -295,7 +297,7 @@ SUPPRESSION.MenuF10=nil
 --- PSEUDOATC version.
 -- @field #number version
-SUPPRESSION.version="0.9.3"
+SUPPRESSION.version="0.9.4"
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
@@ -309,7 +311,7 @@ SUPPRESSION.version="0.9.3"
 --- Creates a new AI_suppression object.
 -- @param #SUPPRESSION self
 -- @param Wrapper.Group#GROUP group The GROUP object for which suppression should be applied.
-- @return #SUPPRESSION SUPPRESSION object or *nil* if group does not exist or is not a ground group.
+-- @return #SUPPRESSION self
 function SUPPRESSION:New(group)
  -- Inherits from FSM_CONTROLLABLE
@@ -320,7 +322,7 @@ function SUPPRESSION:New(group)
    self.lid=string.format("SUPPRESSION %s | ", tostring(group:GetName()))
    self:T(self.lid..string.format("SUPPRESSION version %s. Activating suppressive fire for group %s", SUPPRESSION.version, group:GetName()))
  else
-    self:E(self.lid.."SUPPRESSION | Requested group does not exist! (Has to be a MOOSE group.)")
+    self:E("SUPPRESSION | Requested group does not exist! (Has to be a MOOSE group)")
    return nil
  end
@@ -1186,6 +1188,16 @@ function SUPPRESSION:onafterFightBack(Controllable, From, Event, To)
  -- Set ROE and alarm state back to default.
  self:_SetROE()
  self:_SetAlarmState()
  local group=Controllable --Wrapper.Group#GROUP
  local Waypoints = group:GetTemplateRoutePoints()
 --  env.info("FF waypoints",showMessageBox)
 --  self:I(Waypoints)
  group:Route(Waypoints, 5)
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
@@ -1251,7 +1263,7 @@ function SUPPRESSION:onafterFallBack(Controllable, From, Event, To, AttackUnit)
  self:_SetROE(SUPPRESSION.ROE.Hold)
  -- Set alarm state to GREEN and let the unit run away.
-  self:_SetAlarmState(SUPPRESSION.AlarmState.Green)
+  self:_SetAlarmState(SUPPRESSION.AlarmState.Auto)
  -- Make the group run away.
  self:_Run(Coord, self.Speed, self.Formation, self.FallbackWait)
@@ -1537,7 +1549,7 @@ end
 -- @param #SUPPRESSION self
 -- @param Core.Event#EVENTDATA EventData
 function SUPPRESSION:_OnEventHit(EventData)
-  self:F(EventData)
+  self:F3(EventData)
  local GroupNameSelf=self.Controllable:GetName()
  local GroupNameTgt=EventData.TgtGroupName
@@ -1676,15 +1688,15 @@ end
 function SUPPRESSION:_Run(fin, speed, formation, wait)
  speed=speed or 20
-  formation=formation or "Off road"
+  formation=formation or ENUMS.Formation.Vehicle.OffRoad
  wait=wait or 30
-  local group=self.Controllable -- Wrapper.Controllable#CONTROLLABLE
+  local group=self.Controllable -- Wrapper.Group#GROUP
  if group and group:IsAlive() then
    -- Clear all tasks.
-    group:ClearTasks()
+    --group:ClearTasks()
    -- Current coordinates of group.
    local ini=group:GetCoordinate()
@@ -1695,56 +1707,17 @@ function SUPPRESSION:_Run(fin, speed, formation, wait)
    -- Heading from ini to fin.
    local heading=self:_Heading(ini, fin)
    -- Number of waypoints.
    local nx
    if dist <= 50 then
      nx=2
    elseif dist <= 100 then
      nx=3
    elseif dist <= 500 then
      nx=4
    else
      nx=5
    end
    -- Number of intermediate waypoints.
    local dx=dist/(nx-1)
    -- Waypoint and task arrays.
    local wp={}
    local tasks={}
    -- First waypoint is the current position of the group.
    wp[1]=ini:WaypointGround(speed, formation)
    tasks[1]=group:TaskFunction("SUPPRESSION._Passing_Waypoint", self, 1, false)
    if self.Debug then  
      local MarkerID=ini:MarkToAll(string.format("Waypoing %d of group %s (initial)", #wp, self.Controllable:GetName()))
    end
    self:T2(self.lid..string.format("Number of waypoints %d", nx))
    for i=1,nx-2 do
      local x=dx*i
      local coord=ini:Translate(x, heading)
      wp[#wp+1]=coord:WaypointGround(speed, formation)
      tasks[#tasks+1]=group:TaskFunction("SUPPRESSION._Passing_Waypoint", self, #wp, false)
      self:T2(self.lid..string.format("%d x = %4.1f", i, x))
      if self.Debug then
        local MarkerID=coord:MarkToAll(string.format("Waypoing %d of group %s", #wp, self.Controllable:GetName()))
      end
    end
    self:T2(self.lid..string.format("Total distance: %4.1f", dist))
    -- Final waypoint.
    wp[#wp+1]=fin:WaypointGround(speed, formation)
    if self.Debug then
      local MarkerID=fin:MarkToAll(string.format("Waypoing %d of group %s (final)", #wp, self.Controllable:GetName()))
    end
      -- Task to hold.
    local ConditionWait=group:TaskCondition(nil, nil, nil, nil, wait, nil)
    local TaskHold = group:TaskHold()
@@ -1754,24 +1727,14 @@ function SUPPRESSION:_Run(fin, speed, formation, wait)
    TaskComboFin[#TaskComboFin+1] = group:TaskFunction("SUPPRESSION._Passing_Waypoint", self, #wp, true)
    TaskComboFin[#TaskComboFin+1] = group:TaskControlled(TaskHold, ConditionWait)
-    -- Add final task.  
+    -- Final waypoint.
-    tasks[#tasks+1]=group:TaskCombo(TaskComboFin)
+    wp[#wp+1]=fin:WaypointGround(speed, formation, TaskComboFin)
-  
+    if self.Debug then
-    -- Original waypoints of the group.
+      local MarkerID=fin:MarkToAll(string.format("Waypoing %d of group %s (final)", #wp, self.Controllable:GetName()))
    local Waypoints = group:GetTemplateRoutePoints()
    -- New points are added to the default route.
    for i,p in ipairs(wp) do
      table.insert(Waypoints, i, wp[i])
    end
    -- Set task for all waypoints.
    for i,wp in ipairs(Waypoints) do
      group:SetTaskWaypoint(Waypoints[i], tasks[i])
    end    
    -- Submit task and route group along waypoints.
-    group:Route(Waypoints)
+    group:Route(wp)
  else
    self:E(self.lid..string.format("ERROR: Group is not alive!"))
@@ -1790,7 +1753,7 @@ function SUPPRESSION._Passing_Waypoint(group, Fsm, i, final)
  local text=string.format("Group %s passing waypoint %d (final=%s)", group:GetName(), i, tostring(final))
  MESSAGE:New(text,10):ToAllIf(Fsm.Debug)
  if Fsm.Debug then
-    env.info(self.lid..text)
+    env.info(Fsm.lid..text)
  end
  if final then
@@ -1891,7 +1854,7 @@ function SUPPRESSION:_GetLife()
    local groupstrength=#units/self.IniGroupStrength*100
-    self.T2(self.lid..string.format("Group %s _GetLife nunits = %d", self.Controllable:GetName(), #units))
+    self:T2(self.lid..string.format("Group %s _GetLife nunits = %d", self.Controllable:GetName(), #units))
    for _,unit in pairs(units) do
--- a/Development/Moose/Functional/Warehouse.lua
+++ b/Development/Moose/Functional/Warehouse.lua
--- a/Development/Moose/Functional/ZoneCaptureCoalition.lua
+++ b/Development/Moose/Functional/ZoneCaptureCoalition.lua
@@ -1,4 +1,4 @@
--- **Functional** -- Models the process to zone guarding and capturing.
+--- **Functional** - Models the process to zone guarding and capturing.
 --
 -- ===
 -- 
@@ -68,9 +68,9 @@ do -- ZONE_CAPTURE_COALITION
  -- 
  -- In order to use ZONE_CAPTURE_COALITION, you need to:
  -- 
-  --   * Create a @{Zone} object from one of the ZONE_ classes.  
+  --   * Create a @{Core.Zone} object from one of the ZONE_ classes.    
-  --     Note that ZONE_POLYGON_ classes are not yet functional.  
+  --     The functional ZONE_ classses are those derived from a ZONE_RADIUS.
-  --     The only functional ZONE_ classses are those derived from a ZONE_RADIUS.
+  --     In order to use a ZONE_POLYGON, hand over the **GROUP name** of a late activated group forming a polygon with it's waypoints.
  --   * Set the state of the zone. Most of the time, Guarded would be the initial state.
  --   * Start the zone capturing **monitoring process**.  
  --     This will check the presence of friendly and/or enemy units within the zone and will transition the state of the zone when the tactical situation changed.
@@ -363,7 +363,7 @@ do -- ZONE_CAPTURE_COALITION
  --- ZONE_CAPTURE_COALITION Constructor.
  -- @param #ZONE_CAPTURE_COALITION self
-  -- @param Core.Zone#ZONE Zone A @{Zone} object with the goal to be achieved.
+  -- @param Core.Zone#ZONE Zone A @{Core.Zone} object with the goal to be achieved. Alternatively, can be handed as the name of late activated group describing a @{ZONE_POLYGON} with its waypoints.
  -- @param DCSCoalition.DCSCoalition#coalition Coalition The initial coalition owning the zone.
  -- @param #table UnitCategories Table of unit categories. See [DCS Class Unit](https://wiki.hoggitworld.com/view/DCS_Class_Unit). Default {Unit.Category.GROUND_UNIT}.
  -- @param #table ObjectCategories Table of unit categories. See [DCS Class Object](https://wiki.hoggitworld.com/view/DCS_Class_Object). Default {Object.Category.UNIT, Object.Category.STATIC}, i.e. all UNITS and STATICS.
--- a/Development/Moose/Functional/ZoneGoal.lua
+++ b/Development/Moose/Functional/ZoneGoal.lua
@@ -1,4 +1,4 @@
--- **Functional (WIP)** -- Base class that models processes to achieve goals involving a Zone.
+--- **Functional** - Base class that models processes to achieve goals involving a Zone.
 --
 -- ===
 -- 
@@ -8,7 +8,7 @@
 -- ===
 -- 
 -- ### Author: **FlightControl**
-- ### Contributions: **funkyfranky**
+-- ### Contributions: **funkyfranky**, **Applevangelist**
 -- 
 -- ===
 -- 
@@ -26,7 +26,6 @@ do -- Zone
  -- @field #boolean SmokeZone If true, smoke zone.
  -- @extends Core.Zone#ZONE_RADIUS
  --- Models processes that have a Goal with a defined achievement involving a Zone. 
  -- Derived classes implement the ways how the achievements can be realized.
  -- 
@@ -56,13 +55,18 @@ do -- Zone
  --- ZONE_GOAL Constructor.
  -- @param #ZONE_GOAL self
-  -- @param Core.Zone#ZONE_RADIUS Zone A @{Zone} object with the goal to be achieved.
+  -- @param Core.Zone#ZONE_RADIUS Zone A @{Core.Zone} object with the goal to be achieved. Alternatively, can be handed as the name of late activated group describing a ZONE_POLYGON with its waypoints.
  -- @return #ZONE_GOAL
  function ZONE_GOAL:New( Zone )
-    local self = BASE:Inherit( self, ZONE_RADIUS:New( Zone:GetName(), Zone:GetVec2(), Zone:GetRadius() ) ) -- #ZONE_GOAL
+    BASE:I({Zone=Zone})
    local self = BASE:Inherit( self, BASE:New())
    if type(Zone) == "string" then
       self = BASE:Inherit( self, ZONE_POLYGON:NewFromGroupName(Zone) )
    else
        self = BASE:Inherit( self, ZONE_RADIUS:New( Zone:GetName(), Zone:GetVec2(), Zone:GetRadius() ) ) -- #ZONE_GOAL
        self:F( { Zone = Zone } )
-
+    end
    -- Goal object.
    self.Goal = GOAL:New()
@@ -109,7 +113,6 @@ do -- Zone
    return self:GetName()
  end
  --- Activate smoking of zone with the color or the current owner.
  -- @param #ZONE_GOAL self
  -- @param #boolean switch If *true* or *nil* activate smoke. If *false* or *nil*, no smoke.
@@ -135,7 +138,6 @@ do -- Zone
    self.SmokeColor = SmokeColor
  end
  --- Flare the zone boundary.
  -- @param #ZONE_GOAL self
  -- @param DCS#SMOKECOLOR.Color FlareColor
@@ -143,7 +145,6 @@ do -- Zone
    self:FlareZone( FlareColor, 30)
  end
  --- When started, check the Smoke and the Zone status.
  -- @param #ZONE_GOAL self
  function ZONE_GOAL:onafterGuard()
@@ -155,7 +156,6 @@ do -- Zone
    end
  end
  --- Check status Smoke.
  -- @param #ZONE_GOAL self
  function ZONE_GOAL:StatusSmoke()
@@ -178,7 +178,6 @@ do -- Zone
  end
  --- @param #ZONE_GOAL self
  -- @param Core.Event#EVENTDATA EventData Event data table.
  function ZONE_GOAL:__Destroyed( EventData )
@@ -209,7 +208,6 @@ do -- Zone
  end
  --- Activate the event UnitDestroyed to be fired when a unit is destroyed in the zone.
  -- @param #ZONE_GOAL self
  function ZONE_GOAL:MonitorDestroyedUnits()
--- a/Development/Moose/Functional/ZoneGoalCargo.lua
+++ b/Development/Moose/Functional/ZoneGoalCargo.lua
@@ -1,4 +1,4 @@
--- **Functional (WIP)** -- Base class that models processes to achieve goals involving a Zone and Cargo.
+--- **Functional** - Base class that models processes to achieve goals involving a Zone and Cargo.
 --
 -- ===
 -- 
@@ -55,7 +55,7 @@ do -- ZoneGoal
  --- ZONE_GOAL_CARGO Constructor.
  -- @param #ZONE_GOAL_CARGO self
-  -- @param Core.Zone#ZONE Zone A @{Zone} object with the goal to be achieved.
+  -- @param Core.Zone#ZONE Zone A @{Core.Zone} object with the goal to be achieved.
  -- @param DCSCoalition.DCSCoalition#coalition Coalition The initial coalition owning the zone.
  -- @return #ZONE_GOAL_CARGO
  function ZONE_GOAL_CARGO:New( Zone, Coalition )
--- a/Development/Moose/Functional/ZoneGoalCoalition.lua
+++ b/Development/Moose/Functional/ZoneGoalCoalition.lua
@@ -1,4 +1,4 @@
--- **Functional (WIP)** -- Base class that models processes to achieve goals involving a Zone for a Coalition.
+--- **Functional** - Base class that models processes to achieve goals involving a Zone for a Coalition.
 --
 -- ===
 --
@@ -53,7 +53,7 @@ do -- ZoneGoal
  --- ZONE_GOAL_COALITION Constructor.
  -- @param #ZONE_GOAL_COALITION self
-  -- @param Core.Zone#ZONE Zone A @{Zone} object with the goal to be achieved.
+  -- @param Core.Zone#ZONE Zone A @{Core.Zone} object with the goal to be achieved.
  -- @param DCSCoalition.DCSCoalition#coalition Coalition The initial coalition owning the zone. Default coalition.side.NEUTRAL.
  -- @param #table UnitCategories Table of unit categories. See [DCS Class Unit](https://wiki.hoggitworld.com/view/DCS_Class_Unit). Default {Unit.Category.GROUND_UNIT}.
  -- @return #ZONE_GOAL_COALITION
--- a/Development/Moose/Globals.lua
+++ b/Development/Moose/Globals.lua
@@ -44,3 +44,15 @@ end
 if __na then
  BASE:I("Check <DCS install folder>/Scripts/MissionScripting.lua and comment out the lines with sanitizeModule(''). Use at your own risk!)")
 end
 BASE.ServerName = "Unknown"
 if lfs and loadfile then
  local serverfile = lfs.writedir() .. 'Config/serverSettings.lua'
  if UTILS.FileExists(serverfile) then
    loadfile(serverfile)()
    if cfg and cfg.name then
      BASE.ServerName = cfg.name
    end
  end
  BASE.ServerName = BASE.ServerName or "Unknown"
  BASE:I("Server Name: " .. tostring(BASE.ServerName))
 end
--- a/Development/Moose/Modules.lua
+++ b/Development/Moose/Modules.lua
@@ -5,9 +5,12 @@ __Moose.Include( 'Scripts/Moose/Utilities/Profiler.lua' )
 __Moose.Include( 'Scripts/Moose/Utilities/Templates.lua' )
 __Moose.Include( 'Scripts/Moose/Utilities/STTS.lua' )
 __Moose.Include( 'Scripts/Moose/Utilities/FiFo.lua' )
 __Moose.Include( 'Scripts/Moose/Utilities/Socket.lua' )
 __Moose.Include( 'Scripts/Moose/Core/Base.lua' )
 __Moose.Include( 'Scripts/Moose/Core/Astar.lua' )
 __Moose.Include( 'Scripts/Moose/Core/Beacon.lua' )
 __Moose.Include( 'Scripts/Moose/Core/Condition.lua' )
 __Moose.Include( 'Scripts/Moose/Core/UserFlag.lua' )
 __Moose.Include( 'Scripts/Moose/Core/Report.lua' )
 __Moose.Include( 'Scripts/Moose/Core/Scheduler.lua' )
@@ -28,6 +31,8 @@ __Moose.Include( 'Scripts/Moose/Core/SpawnStatic.lua' )
 __Moose.Include( 'Scripts/Moose/Core/Timer.lua' )
 __Moose.Include( 'Scripts/Moose/Core/Goal.lua' )
 __Moose.Include( 'Scripts/Moose/Core/Spot.lua' )
 __Moose.Include( 'Scripts/Moose/Core/MarkerOps_Base.lua' )
 __Moose.Include( 'Scripts/Moose/Core/TextAndSound.lua' )
 __Moose.Include( 'Scripts/Moose/Wrapper/Object.lua' )
 __Moose.Include( 'Scripts/Moose/Wrapper/Identifiable.lua' )
--- a/Development/Moose/Ops/ATIS.lua
+++ b/Development/Moose/Ops/ATIS.lua
@@ -46,13 +46,12 @@
 --
 -- ### Author: **funkyfranky**
 --
-- @module Ops.Atis
+-- @module Ops.ATIS
 -- @image OPS_ATIS.png
 --- ATIS class.
 -- @type ATIS
 -- @field #string ClassName Name of the class.
 -- @field #boolean Debug Debug mode. Messages to all about status.
 -- @field #string lid Class id string for output to DCS log file.
 -- @field #string theatre DCS map name.
 -- @field #string airbasename The name of the airbase.
@@ -92,6 +91,10 @@
 -- @field #boolean useSRS If true, use SRS for transmission.
 -- @field Sound.SRS#MSRS msrs Moose SRS object.
 -- @field #number dTQueueCheck Time interval to check the radio queue. Default 5 sec or 90 sec if SRS is used.
 -- @field #boolean ReportmBar Report mBar/hpa even if not metric, i.e. for Mirage flights
 -- @field #boolean TransmitOnlyWithPlayers For SRS - If true, only transmit if there are alive Players.
 -- @field #string SRSText Text of the complete SRS message (if done at least once, else nil)
 -- @field #boolean ATISforFARPs Will be set to true if the base given is a FARP/Helipad
 -- @extends Core.Fsm#FSM
 --- *It is a very sad thing that nowadays there is so little useless information.* - Oscar Wilde
@@ -121,7 +124,7 @@
 -- The @{#ATIS.New}(*airbasename*, *frequency*) creates a new ATIS object. The parameter *airbasename* is the name of the airbase or airport. Note that this has to be spelled exactly as in the DCS mission editor.
 -- The parameter *frequency* is the frequency the ATIS broadcasts in MHz.
 --
-- Broadcasting is started via the @{#ATIS.Start}() function. The start can be delayed by useing @{#ATIS.__Start}(*delay*), where *delay* is the delay in seconds.
+-- Broadcasting is started via the @{#ATIS.Start}() function. The start can be delayed by using @{#ATIS.__Start}(*delay*), where *delay* is the delay in seconds.
 --
 -- ## Subtitles
 --
@@ -267,6 +270,8 @@
 -- Unfortunately, it is not possible to determine the duration of the complete transmission. So once the transmission is finished, there might be some radio silence before
 -- the next iteration begins. You can fine tune the time interval between transmissions with the @{#ATIS.SetQueueUpdateTime}() function. The default interval is 90 seconds.
 --
 -- An SRS Setup-Guide can be found here: [Moose TTS Setup Guide](https://github.com/FlightControl-Master/MOOSE_GUIDES/blob/master/documents/Moose%20TTS%20Setup%20Guide.pdf)
 --
 -- # Examples
 --
 -- ## Caucasus: Batumi
@@ -306,10 +311,22 @@
 --
 -- This uses a male voice with US accent. It requires SRS to be installed in the `D:\DCS\_SRS\` directory. Not that backslashes need to be escaped or simply use slashes (as in linux).
 -- 
 -- ## FARPS
 -- 
 -- ATIS is working with FARPS, but this requires the usage of SRS. The airbase name for the `New()-method` is the UNIT name of the FARP:
 -- 
 --      atis = ATIS:New("FARP Gold",119,radio.modulation.AM)
 --      atis:SetMetricUnits()
 --      atis:SetTransmitOnlyWithPlayers(true)
 --      atis:SetReportmBar(true)
 --      atis:SetTowerFrequencies(127.50)
 --      atis:SetSRS("D:\\DCS\\_SRS\\", "male", "en-US",nil,5002)
 --      atis:SetAdditionalInformation("Welcome to the Jungle!")
 --      atis:__Start(3)
 --
 -- @field #ATIS
 ATIS = {
  ClassName      = "ATIS",
  Debug          = false,
  lid            =   nil,
  theatre        =   nil,
  airbasename    =   nil,
@@ -346,6 +363,9 @@ ATIS = {
  usemarker      =   nil,
  markerid       =   nil,
  relHumidity    =   nil,
  ReportmBar     =   false,
  TransmitOnlyWithPlayers = false,
  ATISforFARPs = false,
 }
 --- NATO alphabet.
@@ -588,15 +608,18 @@ _ATIS = {}
 --- ATIS class version.
 -- @field #string version
-ATIS.version = "0.9.6"
+ATIS.version = "0.9.14"
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- TODO list
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
-- TODO: Add new Normany airfields.
+-- TODO: Add new Normandy airfields.
 -- TODO: Zulu time --> Zulu in output.
 -- TODO: Correct fog for elevation.
 -- DONE: Use new AIRBASE system to set start/landing runway
 -- DONE: SetILS doesn't work
 -- DONE: Visibility reported twice over SRS
 -- DONE: Add text report for output.
 -- DONE: Add stop FMS functions.
 -- NOGO: Use local time. Not realisitc!
@@ -611,28 +634,28 @@ ATIS.version = "0.9.6"
 -- Constructor
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
--- Create a new ATIS class object for a specific aircraft carrier unit.
+--- Create a new ATIS class object for a specific airbase.
 -- @param #ATIS self
-- @param #string airbasename Name of the airbase.
+-- @param #string AirbaseName Name of the airbase.
-- @param #number frequency Radio frequency in MHz. Default 143.00 MHz.
+-- @param #number Frequency Radio frequency in MHz. Default 143.00 MHz.
-- @param #number modulation Radio modulation: 0=AM, 1=FM. Default 0=AM. See `radio.modulation.AM` and `radio.modulation.FM` enumerators
+-- @param #number Modulation Radio modulation: 0=AM, 1=FM. Default 0=AM. See `radio.modulation.AM` and `radio.modulation.FM` enumerators.
 -- @return #ATIS self
-function ATIS:New( airbasename, frequency, modulation )
+function ATIS:New(AirbaseName, Frequency, Modulation)
  -- Inherit everything from FSM class.
  local self = BASE:Inherit( self, FSM:New() ) -- #ATIS
-  self.airbasename = airbasename
+  self.airbasename=AirbaseName
-  self.airbase = AIRBASE:FindByName( airbasename )
+  self.airbase=AIRBASE:FindByName(AirbaseName)
  if self.airbase==nil then
-    self:E( "ERROR: Airbase %s for ATIS could not be found!", tostring( airbasename ) )
+    self:E("ERROR: Airbase %s for ATIS could not be found!", tostring(AirbaseName))
    return nil
  end
  -- Default freq and modulation.
-  self.frequency = frequency or 143.00
+  self.frequency=Frequency or 143.00
-  self.modulation = modulation or 0
+  self.modulation=Modulation or 0
  -- Get map.
  self.theatre = env.mission.theatre
@@ -653,6 +676,7 @@ function ATIS:New( airbasename, frequency, modulation )
  self:SetMapMarks( false )
  self:SetRelativeHumidity()
  self:SetQueueUpdateTime()
  self:SetReportmBar(false)
  -- Start State.
  self:SetStartState( "Stopped" )
@@ -734,14 +758,6 @@ function ATIS:New( airbasename, frequency, modulation )
  -- @param #string To To state.
  -- @param #string Text Report text.
  -- Debug trace.
  if false then
    self.Debug = true
    BASE:TraceOnOff( true )
    BASE:TraceClass( self.ClassName )
    BASE:TraceLevel( 1 )
  end
  return self
 end
@@ -755,7 +771,7 @@ end
 -- @return #ATIS self
 function ATIS:SetSoundfilesPath( path )
  self.soundpath = tostring( path or "ATIS Soundfiles/" )
-  self:I( self.lid .. string.format( "Setting sound files path to %s", self.soundpath ) )
+  self:T( self.lid .. string.format( "Setting sound files path to %s", self.soundpath ) )
  return self
 end
@@ -766,7 +782,7 @@ end
 -- @return #ATIS self
 function ATIS:SetRadioRelayUnitName( unitname )
  self.relayunitname = unitname
-  self:I( self.lid .. string.format( "Setting radio relay unit to %s", self.relayunitname ) )
+  self:T( self.lid .. string.format( "Setting radio relay unit to %s", self.relayunitname ) )
  return self
 end
@@ -784,13 +800,52 @@ function ATIS:SetTowerFrequencies( freqs )
  return self
 end
--- Set active runway. This can be used if the automatic runway determination via the wind direction gives incorrect results.
+--- For SRS - Switch to only transmit if there are players on the server.
 -- @param #ATIS self
 -- @param #boolean Switch If true, only send SRS if there are alive Players.
 -- @return #ATIS self
 function ATIS:SetTransmitOnlyWithPlayers(Switch)
  self.TransmitOnlyWithPlayers = Switch
  if self.msrsQ then
    self.msrsQ:SetTransmitOnlyWithPlayers(Switch)
  end
  return self
 end
 --- Set active runway for **landing** operations. This can be used if the automatic runway determination via the wind direction gives incorrect results.
 -- For example, use this if there are two runways with the same directions.
 -- @param #ATIS self
 -- @param #string runway Active runway, *e.g.* "31L".
 -- @return #ATIS self
 function ATIS:SetActiveRunway( runway )
  self.activerunway = tostring( runway )
  local prefer = nil
  if string.find(string.lower(runway),"l") then 
    prefer = true
  elseif string.find(string.lower(runway),"r") then 
    prefer = false
  end
  self.airbase:SetActiveRunway(runway,prefer)
  return self
 end
 --- Set the active runway for landing.
 -- @param #ATIS self
 -- @param #string runway : Name of the runway, e.g. "31" or "02L" or "90R". If not given, the runway is determined from the wind direction.
 -- @param #boolean preferleft : If true, perfer the left runway. If false, prefer the right runway. If nil (default), do not care about left or right.
 -- @return #ATIS self
 function ATIS:SetActiveRunwayLanding(runway, preferleft)
  self.airbase:SetActiveRunwayLanding(runway,preferleft)
  return self
 end
 --- Set the active runway for take-off.
 -- @param #ATIS self
 -- @param #string runway : Name of the runway, e.g. "31" or "02L" or "90R". If not given, the runway is determined from the wind direction.
 -- @param #boolean preferleft : If true, perfer the left runway. If false, prefer the right runway. If nil (default), do not care about left or right.
 -- @return #ATIS self
 function ATIS:SetActiveRunwayTakeoff(runway,preferleft)
  self.airbase:SetActiveRunwayTakeoff(runway,preferleft)
  return self
 end
@@ -802,6 +857,15 @@ function ATIS:SetRunwayLength()
  return self
 end
 --- Give information on runway length.
 -- @param #ATIS self
 -- @return #ATIS self
 function ATIS:SetRunwayLength()
  self.rwylength=true
  return self
 end
 --- Give information on airfield elevation
 -- @param #ATIS self
 -- @return #ATIS self
@@ -832,6 +896,13 @@ function ATIS:SetMapMarks( switch )
  return self
 end
 --- Return the complete SRS Text block, if at least generated once. Else nil.
 -- @param #ATIS self
 -- @return #string SRSText
 function ATIS:GetSRSText()
  return self.SRSText
 end
 --- Set magnetic runway headings as depicted on the runway, *e.g.* "13" for 130° or "25L" for the left runway with magnetic heading 250°.
 -- @param #ATIS self
 -- @param #table headings Magnetic headings. Inverse (-180°) headings are added automatically. You only need to specify one heading per runway direction. "L"eft and "R" right can also be appended.
@@ -852,7 +923,7 @@ function ATIS:SetRunwayHeadingsMagnetic( headings )
    end
    -- Add runway heading to table.
-    self:I( self.lid .. string.format( "Adding user specified magnetic runway heading %s", heading ) )
+    self:T( self.lid .. string.format( "Adding user specified magnetic runway heading %s", heading ) )
    table.insert( self.runwaymag, heading )
    local h = self:GetRunwayWithoutLR( heading )
@@ -874,7 +945,7 @@ function ATIS:SetRunwayHeadingsMagnetic( headings )
    end
    -- Add inverse runway heading to table.
-    self:I( self.lid .. string.format( "Adding user specified magnetic runway heading %s (inverse)", head2 ) )
+    self:T( self.lid .. string.format( "Adding user specified magnetic runway heading %s (inverse)", head2 ) )
    table.insert( self.runwaymag, head2 )
  end
@@ -948,6 +1019,28 @@ function ATIS:SetAltimeterQNH( switch )
  return self
 end
 --- Additionally report altimeter QNH/QFE in hPa, even if not set to metric.
 -- @param #ATIS self
 -- @param #boolean switch If true or nil, report mBar/hPa in addition.
 -- @return #ATIS self
 function ATIS:SetReportmBar(switch)
  if switch == true or switch == nil then
    self.ReportmBar = true
  else
    self.ReportmBar = false
  end
  return self
 end
 --- Additionally report free text, only working with SRS(!)
 -- @param #ATIS self
 -- @param #string text The text to report at the end of the ATIS message, e.g. runway closure, warnings, etc.
 -- @return #ATIS self
 function ATIS:SetAdditionalInformation(text)
  self.AdditionalInformation = text
  return self
 end
 --- Suppresses QFE readout. Default is to report both QNH and QFE.
 -- @param #ATIS self
 -- @return #ATIS self
@@ -971,7 +1064,7 @@ end
 --
 --   * 186° on the Caucaus map
 --   * 192° on the Nevada map
--   * 170° on the Normany map
+--   * 170° on the Normandy map
 --   * 182° on the Persian Gulf map
 --
 -- Likewise, to convert *true* into *magnetic* heading, one has to substract easterly and add westerly variation.
@@ -979,7 +1072,7 @@ end
 -- Or you make your life simple and just include the sign so you don't have to bother about East/West.
 --
 -- @param #ATIS self
-- @param #number magvar Magnetic variation in degrees. Positive for easterly and negative for westerly variation. Default is magnatic declinaton of the used map, c.f. @{Utilities.UTils#UTILS.GetMagneticDeclination}.
+-- @param #number magvar Magnetic variation in degrees. Positive for easterly and negative for westerly variation. Default is magnatic declinaton of the used map, c.f. @{Utilities.Utils#UTILS.GetMagneticDeclination}.
 -- @return #ATIS self
 function ATIS:SetMagneticDeclination( magvar )
  self.magvar = magvar or UTILS.GetMagneticDeclination()
@@ -1127,8 +1220,10 @@ end
 -- @param #string Culture Culture, e.g. "en-GB" (default).
 -- @param #string Voice Specific voice. Overrides `Gender` and `Culture`.
 -- @param #number Port SRS port. Default 5002.
 -- @param #string GoogleKey Path to Google JSON-Key.
 -- @return #ATIS self
-function ATIS:SetSRS( PathToSRS, Gender, Culture, Voice, Port )
+function ATIS:SetSRS(PathToSRS, Gender, Culture, Voice, Port, GoogleKey)
  if PathToSRS then
    self.useSRS=true
    self.msrs=MSRS:New(PathToSRS, self.frequency, self.modulation)
    self.msrs:SetGender(Gender)
@@ -1136,9 +1231,16 @@ function ATIS:SetSRS( PathToSRS, Gender, Culture, Voice, Port )
    self.msrs:SetVoice(Voice)
    self.msrs:SetPort(Port)
    self.msrs:SetCoalition(self:GetCoalition())
    self.msrs:SetLabel("ATIS")
    self.msrs:SetGoogle(GoogleKey)
    self.msrsQ = MSRSQUEUE:New("ATIS")
    self.msrsQ:SetTransmitOnlyWithPlayers(self.TransmitOnlyWithPlayers)
    if self.dTQueueCheck<=10 then
      self:SetQueueUpdateTime(90)
    end
  else
    self:E(self.lid..string.format("ERROR: No SRS path specified!"))
  end
  return self
 end
@@ -1170,15 +1272,23 @@ end
 function ATIS:onafterStart( From, Event, To )
  -- Check that this is an airdrome.
-  if self.airbase:GetAirbaseCategory() ~= Airbase.Category.AIRDROME then
+  if self.airbase:GetAirbaseCategory() == Airbase.Category.SHIP then
-    self:E( self.lid .. string.format( "ERROR: Cannot start ATIS for airbase %s! Only AIRDROMES are supported but NOT FARPS or SHIPS.", self.airbasename ) )
+    self:E( self.lid .. string.format( "ERROR: Cannot start ATIS for airbase %s! Only AIRDROMES are supported but NOT SHIPS.", self.airbasename ) )
    return
  end
  -- Check that if is a Helipad.
  if self.airbase:GetAirbaseCategory() == Airbase.Category.HELIPAD then
    self:E( self.lid .. string.format( "EXPERIMENTAL: Starting ATIS for Helipad %s! SRS must be ON", self.airbasename ) )
    self.ATISforFARPs = true
    self.useSRS = true
  end
  -- Info.
  self:I( self.lid .. string.format( "Starting ATIS v%s for airbase %s on %.3f MHz Modulation=%d", ATIS.version, self.airbasename, self.frequency, self.modulation ) )
  -- Start radio queue.
  if not self.useSRS then
    self.radioqueue = RADIOQUEUE:New( self.frequency, self.modulation, string.format( "ATIS %s", self.airbasename ) )
    -- Send coordinate is airbase coord.
@@ -1204,6 +1314,7 @@ function ATIS:onafterStart( From, Event, To )
    -- Start radio queue.
    self.radioqueue:Start( 1, 0.1 )
  end
  -- Handle airbase capture
  -- Handle events.
@@ -1239,10 +1350,12 @@ function ATIS:onafterStatus( From, Event, To )
  else
    text = text .. string.format( ", Relay unit=%s (alive=%s)", tostring( self.relayunitname ), relayunitstatus )
  end
-  self:I( self.lid .. text )
+  self:T( self.lid .. text )
  if not self:Is("Stopped") then
    self:__Status( -60 )
  end
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- FSM Events
@@ -1270,9 +1383,11 @@ function ATIS:onafterCheckQueue( From, Event, To )
  end
  if not self:Is("Stopped") then
    -- Check back in 5 seconds.  
    self:__CheckQueue( -math.abs( self.dTQueueCheck ) )
  end
 end
 --- Broadcast ATIS radio message.
 -- @param #ATIS self
@@ -1319,6 +1434,9 @@ function ATIS:onafterBroadcast( From, Event, To )
  end
  local mBarqnh = qnh
  local mBarqfe = qfe
  -- Convert to inHg.
  if self.PmmHg then
    qfe = UTILS.hPa2mmHg( qfe )
@@ -1378,7 +1496,17 @@ function ATIS:onafterBroadcast( From, Event, To )
  --- Runway ---
  --------------
-  local runway, rwyLeft = self:GetActiveRunway()
+  
  local runwayLanding, rwyLandingLeft
  local runwayTakeoff, rwyTakeoffLeft
  if self.airbase:GetAirbaseCategory() == Airbase.Category.HELIPAD then
    runwayLanding, rwyLandingLeft="PAD 01",false
    runwayTakeoff, rwyTakeoffLeft="PAD 02",false
  else
    runwayLanding, rwyLandingLeft=self:GetActiveRunway()
    runwayTakeoff, rwyTakeoffLeft=self:GetActiveRunway(true)
  end
  ------------
  --- Time ---
@@ -1693,7 +1821,7 @@ function ATIS:onafterBroadcast( From, Event, To )
  -- Airbase name
  subtitle = string.format( "%s", self.airbasename )
-  if self.airbasename:find( "AFB" ) == nil and self.airbasename:find( "Airport" ) == nil and self.airbasename:find( "Airstrip" ) == nil and self.airbasename:find( "airfield" ) == nil and self.airbasename:find( "AB" ) == nil then
+  if (not self.ATISforFARPs) and self.airbasename:find( "AFB" ) == nil and self.airbasename:find( "Airport" ) == nil and self.airbasename:find( "Airstrip" ) == nil and self.airbasename:find( "airfield" ) == nil and self.airbasename:find( "AB" ) == nil then
    subtitle = subtitle .. " Airport"
  end
  if not self.useSRS then
@@ -1740,6 +1868,10 @@ function ATIS:onafterBroadcast( From, Event, To )
  end
  -- Wind
   -- Adding a space after each digit of WINDFROM to convert this to aviation-speak for TTS via SRS
  if self.useSRS then
    WINDFROM = string.gsub(WINDFROM,".", "%1 ")
  end 
  if self.metric then
    subtitle = string.format( "Wind from %s at %s m/s", WINDFROM, WINDSPEED )
  else
@@ -1782,6 +1914,7 @@ function ATIS:onafterBroadcast( From, Event, To )
  end
  alltext = alltext .. ";\n" .. subtitle
  subtitle = ""
  -- Weather phenomena
  local wp = false
  local wpsub = ""
@@ -1881,8 +2014,9 @@ function ATIS:onafterBroadcast( From, Event, To )
      end
    end
  end
  alltext = alltext .. ";\n" .. subtitle
  alltext = alltext .. ";\n" .. subtitle
  subtitle = ""
  -- Temperature
  if self.TDegF then
    if temperature < 0 then
@@ -1963,6 +2097,15 @@ function ATIS:onafterBroadcast( From, Event, To )
      end
    end
  end
  if self.ReportmBar and not self.metric then
    if self.qnhonly then
      subtitle = string.format( "%s;\nAltimeter %d hPa", subtitle, mBarqnh )
    else
      subtitle = string.format( "%s;\nAltimeter: QNH %d, QFE %d hPa", subtitle, mBarqnh, mBarqfe)
    end
  end
  local _ALTIMETER = subtitle
  if not self.useSRS then
    self:Transmission( ATIS.Sound.Altimeter, 1.0, subtitle )
@@ -1997,20 +2140,21 @@ function ATIS:onafterBroadcast( From, Event, To )
  end
  alltext = alltext .. ";\n" .. subtitle
  if not self.ATISforFARPs then
    -- Active runway.
-  local subtitle = string.format( "Active runway %s", runway )
+    local subtitle=string.format("Active runway %s", runwayLanding)
-  if rwyLeft == true then
+    if rwyLandingLeft==true then
      subtitle=subtitle.." Left"
-  elseif rwyLeft == false then
+    elseif rwyLandingLeft==false then
      subtitle=subtitle.." Right"
    end
    local _RUNACT = subtitle
    if not self.useSRS then
      self:Transmission(ATIS.Sound.ActiveRunway, 1.0, subtitle)
-    self.radioqueue:Number2Transmission( runway )
+      self.radioqueue:Number2Transmission(runwayLanding)
-    if rwyLeft == true then
+      if rwyLandingLeft==true then
        self:Transmission(ATIS.Sound.Left, 0.2)
-    elseif rwyLeft == false then
+      elseif rwyLandingLeft==false then
        self:Transmission(ATIS.Sound.Right, 0.2)
      end
    end
@@ -2055,7 +2199,7 @@ function ATIS:onafterBroadcast( From, Event, To )
      end
      alltext = alltext .. ";\n" .. subtitle
    end
-
+  end
  -- Airfield elevation
  if self.elevation then
@@ -2122,7 +2266,7 @@ function ATIS:onafterBroadcast( From, Event, To )
  end
  -- ILS
-  local ils = self:GetNavPoint( self.ils, runway, rwyLeft )
+  local ils=self:GetNavPoint(self.ils, runwayLanding, rwyLandingLeft)
  if ils then
    subtitle = string.format( "ILS frequency %.2f MHz", ils.frequency )
    if not self.useSRS then
@@ -2140,7 +2284,7 @@ function ATIS:onafterBroadcast( From, Event, To )
  end
  -- Outer NDB
-  local ndb = self:GetNavPoint( self.ndbouter, runway, rwyLeft )
+  local ndb=self:GetNavPoint(self.ndbouter, runwayLanding, rwyLandingLeft)
  if ndb then
    subtitle = string.format( "Outer NDB frequency %.2f MHz", ndb.frequency )
    if not self.useSRS then
@@ -2158,7 +2302,7 @@ function ATIS:onafterBroadcast( From, Event, To )
  end
  -- Inner NDB
-  local ndb = self:GetNavPoint( self.ndbinner, runway, rwyLeft )
+  local ndb=self:GetNavPoint(self.ndbinner, runwayLanding, rwyLandingLeft)
  if ndb then
    subtitle = string.format( "Inner NDB frequency %.2f MHz", ndb.frequency )
    if not self.useSRS then
@@ -2197,7 +2341,7 @@ function ATIS:onafterBroadcast( From, Event, To )
  -- TACAN
  if self.tacan then
-    subtitle = string.format( "TACAN channel %dX", self.tacan )
+    subtitle=string.format("TACAN channel %dX Ray", self.tacan)
    if not self.useSRS then
      self:Transmission( ATIS.Sound.TACANChannel, 1.0, subtitle )
      self.radioqueue:Number2Transmission( tostring( self.tacan ), nil, 0.2 )
@@ -2217,7 +2361,7 @@ function ATIS:onafterBroadcast( From, Event, To )
  end
  -- PRMG
-  local ndb = self:GetNavPoint( self.prmg, runway, rwyLeft )
+  local ndb=self:GetNavPoint(self.prmg, runwayLanding, rwyLandingLeft)
  if ndb then
    subtitle = string.format( "PRMG channel %d", ndb.frequency )
    if not self.useSRS then
@@ -2227,6 +2371,11 @@ function ATIS:onafterBroadcast( From, Event, To )
    alltext = alltext .. ";\n" .. subtitle
  end
  -- additional info, if any
  if self.useSRS and self.AdditionalInformation then
    alltext = alltext .. ";\n"..self.AdditionalInformation
  end
  -- Advice on initial...
  subtitle = string.format( "Advise on initial contact, you have information %s", NATO )
  if not self.useSRS then
@@ -2267,6 +2416,8 @@ function ATIS:onafterReport( From, Event, To, Text )
    local text = string.gsub( text, "mmHg", "millimeters of Mercury" )
    local text = string.gsub( text, "hPa", "hectopascals" )
    local text = string.gsub( text, "m/s", "meters per second" )
    local text = string.gsub( text, "TACAN", "tackan" )
    local text = string.gsub( text, "FARP", "farp" )
    -- Replace ";" by "."
    local text = string.gsub( text, ";", " . " )
@@ -2275,7 +2426,10 @@ function ATIS:onafterReport( From, Event, To, Text )
    self:T( "SRS TTS: " .. text )
    -- Play text-to-speech report.
-    self.msrs:PlayText( text )
+    local duration = STTS.getSpeechTime(text,0.95)
    self.msrsQ:NewTransmission(text,duration,self.msrs,nil,2)    
    --self.msrs:PlayText( text )
    self.SRSText = text
  end
@@ -2344,39 +2498,19 @@ end
 --- Get active runway runway.
 -- @param #ATIS self
 -- @param #boolean Takeoff If `true`, get runway for takeoff. Default is for landing.
 -- @return #string Active runway, e.g. "31" for 310 deg.
 -- @return #boolean Use Left=true, Right=false, or nil.
-function ATIS:GetActiveRunway()
+function ATIS:GetActiveRunway(Takeoff)
-  local coord = self.airbase:GetCoordinate()
+  local runway=nil --Wrapper.Airbase#AIRBASE.Runway
-  local height = coord:GetLandHeight()
+  if Takeoff then
-
+    runway=self.airbase:GetActiveRunwayTakeoff()
-  -- Get wind direction and speed in m/s.
+  else
-  local windFrom, windSpeed = coord:GetWind( height + 10 )
+    runway=self.airbase:GetActiveRunwayLanding()
  -- Get active runway data based on wind direction.
  local runact = self.airbase:GetActiveRunway( self.runwaym2t )
  -- Active runway "31".
  local runway = self:GetMagneticRunway( windFrom ) or runact.idx
  -- Left or right in case there are two runways with the same heading.
  local rwyLeft = nil
  -- Check if user explicitly specified a runway.
  if self.activerunway then
    -- Get explicit runway heading if specified.
    local runwayno = self:GetRunwayWithoutLR( self.activerunway )
    if runwayno ~= "" then
      runway = runwayno
  end
-    -- Was "L"eft or "R"ight given?
+  return runway.name, runway.isLeft
    rwyLeft = self:GetRunwayLR( self.activerunway )
  end
  return runway, rwyLeft
 end
 --- Get runway from user supplied magnetic heading.
@@ -2442,7 +2576,7 @@ end
 -- @return #string Runway heading without left or right, *e.g.* "31".
 function ATIS:GetRunwayWithoutLR( runway )
  local rwywo = runway:gsub( "%D+", "" )
-  -- self:I(string.format("FF runway=%s ==> rwywo=%s", runway, rwywo))
+  -- self:T(string.format("FF runway=%s ==> rwywo=%s", runway, rwywo))
  return rwywo
 end
--- a/Development/Moose/Ops/Airboss.lua
+++ b/Development/Moose/Ops/Airboss.lua
--- a/Development/Moose/Ops/CSAR.lua
+++ b/Development/Moose/Ops/CSAR.lua
--- a/Development/Moose/Ops/CTLD.lua
+++ b/Development/Moose/Ops/CTLD.lua
--- a/Development/Moose/Ops/RecoveryTanker.lua
+++ b/Development/Moose/Ops/RecoveryTanker.lua
@@ -31,7 +31,7 @@
 -- @field #string tankergroupname Name of the late activated tanker template group.
 -- @field Wrapper.Group#GROUP tanker Tanker group.
 -- @field Wrapper.Airbase#AIRBASE airbase The home airbase object of the tanker. Normally the aircraft carrier.
-- @field Core.Radio#BEACON beacon Tanker TACAN beacon.
+-- @field Core.Beacon#BEACON beacon Tanker TACAN beacon.
 -- @field #number TACANchannel TACAN channel. Default 1.
 -- @field #string TACANmode TACAN mode, i.e. "X" or "Y". Default "Y". Use only "Y" for AA TACAN stations!
 -- @field #string TACANmorse TACAN morse code. Three letters identifying the TACAN station. Default "TKR".
@@ -784,10 +784,11 @@ end
 -- @param #RECOVERYTANKER self
 -- @param #number channel TACAN channel. Default 1.
 -- @param #string morse TACAN morse code identifier. Three letters. Default "TKR".
 -- @param #string mode TACAN mode, which can be either "Y" (default) or "X".
 -- @return #RECOVERYTANKER self
-function RECOVERYTANKER:SetTACAN(channel, morse)
+function RECOVERYTANKER:SetTACAN(channel, morse, mode)
  self.TACANchannel=channel or 1
-  self.TACANmode="Y"
+  self.TACANmode=mode or "Y"
  self.TACANmorse=morse or "TKR"
  self.TACANon=true
  return self
@@ -1625,7 +1626,6 @@ function RECOVERYTANKER:_ActivateTACAN(delay)
  if delay and delay>0 then
    -- Schedule TACAN activation.
    --SCHEDULER:New(nil, self._ActivateTACAN, {self}, delay)
    self:ScheduleOnce(delay, RECOVERYTANKER._ActivateTACAN, self)
  else
--- a/Development/Moose/Sound/Radio.lua
+++ b/Development/Moose/Sound/Radio.lua
@@ -9,13 +9,13 @@
 -- What are radio communications in DCS?
 --
 --   * Radio transmissions consist of **sound files** that are broadcasted on a specific **frequency** (e.g. 115MHz) and **modulation** (e.g. AM),
--   * They can be **subtitled** for a specific **duration**, the **power** in Watts of the transmiter's antenna can be set, and the transmission can be **looped**.
+--   * They can be **subtitled** for a specific **duration**, the **power** in Watts of the transmitter's antenna can be set, and the transmission can be **looped**.
 --
 -- How to supply DCS my own Sound Files?
 --
 --   * Your sound files need to be encoded in **.ogg** or .wav,
 --   * Your sound files should be **as tiny as possible**. It is suggested you encode in .ogg with low bitrate and sampling settings,
--   * They need to be added in .\l10n\DEFAULT\ in you .miz file (wich can be decompressed like a .zip file),
+--   * They need to be added in .\l10n\DEFAULT\ in you .miz file (which can be decompressed like a .zip file),
 --   * For simplicity sake, you can **let DCS' Mission Editor add the file** itself, by creating a new Trigger with the action "Sound to Country", and choosing your sound file and a country you don't use in your mission.
 --
 -- Due to weird DCS quirks, **radio communications behave differently** if sent by a @{Wrapper.Unit#UNIT} or a @{Wrapper.Group#GROUP} or by any other @{Wrapper.Positionable#POSITIONABLE}
@@ -26,7 +26,7 @@
 -- Note that obviously, the **frequency** and the **modulation** of the transmission are important only if the players are piloting an **Advanced System Modelling** enabled aircraft,
 -- like the A10C or the Mirage 2000C. They will **hear the transmission** if they are tuned on the **right frequency and modulation** (and if they are close enough - more on that below).
 -- If an FC3 aircraft is used, it will **hear every communication, whatever the frequency and the modulation** is set to. The same is true for TACAN beacons. If your aircraft isn't compatible,
-- you won't hear/be able to use the TACAN beacon informations.
+-- you won't hear/be able to use the TACAN beacon information.
 --
 -- ===
 --
@@ -98,12 +98,12 @@ RADIO = {
 --- Create a new RADIO Object. This doesn't broadcast a transmission, though, use @{#RADIO.Broadcast} to actually broadcast.
 -- If you want to create a RADIO, you probably should use @{Wrapper.Positionable#POSITIONABLE.GetRadio}() instead.
 -- @param #RADIO self
-- @param Wrapper.Positionable#POSITIONABLE Positionable The @{Positionable} that will receive radio capabilities.
+-- @param Wrapper.Positionable#POSITIONABLE Positionable The @{Wrapper.Positionable#POSITIONABLE} that will receive radio capabilities.
 -- @return #RADIO The RADIO object or #nil if Positionable is invalid.
 function RADIO:New(Positionable)
  -- Inherit base
-  local self = BASE:Inherit( self, BASE:New() ) -- Core.Radio#RADIO
+  local self = BASE:Inherit( self, BASE:New() ) -- Sound.Radio#RADIO
  self:F(Positionable)
  if Positionable:GetPointVec2() then -- It's stupid, but the only way I found to make sure positionable is valid
@@ -375,7 +375,7 @@ end
 --- Stops a transmission
-- This function is especially usefull to stop the broadcast of looped transmissions
+-- This function is especially useful to stop the broadcast of looped transmissions
 -- @param #RADIO self
 -- @return #RADIO self
 function RADIO:StopBroadcast()
--- a/Development/Moose/Sound/RadioSpeech.lua
+++ b/Development/Moose/Sound/RadioSpeech.lua
@@ -174,6 +174,7 @@ RADIOSPEECH.Vocabulary.RU = {
  ["br"] = { "br", 1.1 },
  ["bra"] = { "bra", 0.3 },
  ["возвращение на базу"] = { "returning_to_base", 1.40 },
  ["на пути к наземной цели"] = { "on_route_to_ground_target", 1.45 },
  ["перехват боги"] = { "intercepting_bogeys", 1.22 },
--- a/Development/Moose/Sound/SRS.lua
+++ b/Development/Moose/Sound/SRS.lua
@@ -1,4 +1,4 @@
--- **Sound** - Simple Radio Standalone (SRS) Integration.
+--- **Sound** - Simple Radio Standalone (SRS) Integration and Text-to-Speech.
 --
 -- ===
 --
@@ -26,7 +26,7 @@
 -- ===
 --
 -- ### Author: **funkyfranky**
-- @module Sound.MSRS
+-- @module Sound.SRS
 -- @image Sound_MSRS.png
 --- MSRS class.
@@ -52,8 +52,6 @@
 --
 -- ===
 --
 -- ![Banner Image](..\Presentations\ATIS\ATIS_Main.png)
 --
 -- # The MSRS Concept
 --
 -- This class allows to broadcast sound files or text via Simple Radio Standalone (SRS).
@@ -96,8 +94,6 @@
 -- For more information on setting up a cloud account, visit: https://cloud.google.com/text-to-speech
 -- Google's supported SSML reference: https://cloud.google.com/text-to-speech/docs/ssml
 -- 
 -- **NOTE on using GOOGLE TTS with SRS:** You need to have the C# library installed in your SRS folder for Google to work. 
 -- You can obtain it e.g. here: [NuGet](https://www.nuget.org/packages/Grpc.Core)
 -- 
 -- **Pro-Tipp** - use the command line with power shell to call DCS-SR-ExternalAudio.exe - it will tell you what is missing.    
 -- and also the Google Console error, in case you have missed a step in setting up your Google TTS.   
@@ -106,10 +102,14 @@
 -- 
 -- ## Set Voice
 -- 
-- Use a specifc voice with the @{#MSRS.SetVoice} function, e.g, `:SetVoice("Microsoft Hedda Desktop")`.
+-- Use a specific voice with the @{#MSRS.SetVoice} function, e.g, `:SetVoice("Microsoft Hedda Desktop")`.
 -- Note that this must be installed on your windows system.
 -- If enabling SetGoogle(), you can use voices provided by Google
 -- Google's supported voices: https://cloud.google.com/text-to-speech/docs/voices
 -- For voices there are enumerators in this class to help you out on voice names:
 -- 
 --            MSRS.Voices.Microsoft -- e.g. MSRS.Voices.Microsoft.Hedda - the Microsoft enumerator contains all voices known to work with SRS
 --            MSRS.Voices.Google -- e.g. MSRS.Voices.Google.Standard.en_AU_Standard_A or MSRS.Voices.Google.Wavenet.de_DE_Wavenet_C - The Google enumerator contains voices for EN, DE, IT, FR and ES.
 -- 
 -- ## Set Coordinate
 -- 
@@ -143,13 +143,114 @@ MSRS = {
 --- MSRS class version.
 -- @field #string version
-MSRS.version="0.0.6"
+MSRS.version="0.1.1"
 --- Voices
 -- @type Voices
 MSRS.Voices = {
  Microsoft = {
    ["Hedda"] = "Microsoft Hedda Desktop", -- de-DE
    ["Hazel"] = "Microsoft Hazel Desktop", -- en-GB
    ["David"] = "Microsoft David Desktop", -- en-US
    ["Zira"] = "Microsoft Zira Desktop", -- en-US
    ["Hortense"] = "Microsoft Hortense Desktop", --fr-FR
    },
  Google = {
    Standard = {
       ["en_AU_Standard_A"] = 'en-AU-Standard-A', -- [1] FEMALE
       ["en_AU_Standard_B"] = 'en-AU-Standard-B', -- [2] MALE
       ["en_AU_Standard_C"] = 'en-AU-Standard-C', -- [3] FEMALE
       ["en_AU_Standard_D"] = 'en-AU-Standard-D', -- [4] MALE
       ["en_IN_Standard_A"] = 'en-IN-Standard-A', -- [5] FEMALE
       ["en_IN_Standard_B"] = 'en-IN-Standard-B', -- [6] MALE
       ["en_IN_Standard_C"] = 'en-IN-Standard-C', -- [7] MALE
       ["en_IN_Standard_D"] = 'en-IN-Standard-D', -- [8] FEMALE
       ["en_GB_Standard_A"] = 'en-GB-Standard-A', -- [9] FEMALE
       ["en_GB_Standard_B"] = 'en-GB-Standard-B', -- [10] MALE
       ["en_GB_Standard_C"] = 'en-GB-Standard-C', -- [11] FEMALE
       ["en_GB_Standard_D"] = 'en-GB-Standard-D', -- [12] MALE
       ["en_GB_Standard_F"] = 'en-GB-Standard-F', -- [13] FEMALE
       ["en_US_Standard_A"] = 'en-US-Standard-A', -- [14] MALE
       ["en_US_Standard_B"] = 'en-US-Standard-B', -- [15] MALE
       ["en_US_Standard_C"] = 'en-US-Standard-C', -- [16] FEMALE
       ["en_US_Standard_D"] = 'en-US-Standard-D', -- [17] MALE
       ["en_US_Standard_E"] = 'en-US-Standard-E', -- [18] FEMALE
       ["en_US_Standard_F"] = 'en-US-Standard-F', -- [19] FEMALE
       ["en_US_Standard_G"] = 'en-US-Standard-G', -- [20] FEMALE
       ["en_US_Standard_H"] = 'en-US-Standard-H', -- [21] FEMALE
       ["en_US_Standard_I"] = 'en-US-Standard-I', -- [22] MALE
       ["en_US_Standard_J"] = 'en-US-Standard-J', -- [23] MALE
       ["fr_FR_Standard_A"] = "fr-FR-Standard-A", -- Female
       ["fr_FR_Standard_B"] = "fr-FR-Standard-B", -- Male
       ["fr_FR_Standard_C"] = "fr-FR-Standard-C", -- Female
       ["fr_FR_Standard_D"] = "fr-FR-Standard-D", -- Male
       ["fr_FR_Standard_E"] = "fr-FR-Standard-E", -- Female
       ["de_DE_Standard_A"] = "de-DE-Standard-A", -- Female
       ["de_DE_Standard_B"] = "de-DE-Standard-B", -- Male
       ["de_DE_Standard_C"] = "de-DE-Standard-C", -- Female
       ["de_DE_Standard_D"] = "de-DE-Standard-D", -- Male
       ["de_DE_Standard_E"] = "de-DE-Standard-E", -- Male
       ["de_DE_Standard_F"] = "de-DE-Standard-F", -- Female
       ["es_ES_Standard_A"] = "es-ES-Standard-A", -- Female
       ["es_ES_Standard_B"] = "es-ES-Standard-B", -- Male
       ["es_ES_Standard_C"] = "es-ES-Standard-C", -- Female
       ["es_ES_Standard_D"] = "es-ES-Standard-D", -- Female
       ["it_IT_Standard_A"] = "it-IT-Standard-A", -- Female
       ["it_IT_Standard_B"] = "it-IT-Standard-B", -- Female
       ["it_IT_Standard_C"] = "it-IT-Standard-C", -- Male
       ["it_IT_Standard_D"] = "it-IT-Standard-D", -- Male
      },
      Wavenet = {
       ["en_AU_Wavenet_A"] = 'en-AU-Wavenet-A', -- [1] FEMALE
       ["en_AU_Wavenet_B"] = 'en-AU-Wavenet-B', -- [2] MALE
       ["en_AU_Wavenet_C"] = 'en-AU-Wavenet-C', -- [3] FEMALE
       ["en_AU_Wavenet_D"] = 'en-AU-Wavenet-D', -- [4] MALE
       ["en_IN_Wavenet_A"] = 'en-IN-Wavenet-A', -- [5] FEMALE
       ["en_IN_Wavenet_B"] = 'en-IN-Wavenet-B', -- [6] MALE
       ["en_IN_Wavenet_C"] = 'en-IN-Wavenet-C', -- [7] MALE
       ["en_IN_Wavenet_D"] = 'en-IN-Wavenet-D', -- [8] FEMALE
       ["en_GB_Wavenet_A"] = 'en-GB-Wavenet-A', -- [9] FEMALE
       ["en_GB_Wavenet_B"] = 'en-GB-Wavenet-B', -- [10] MALE
       ["en_GB_Wavenet_C"] = 'en-GB-Wavenet-C', -- [11] FEMALE
       ["en_GB_Wavenet_D"] = 'en-GB-Wavenet-D', -- [12] MALE
       ["en_GB_Wavenet_F"] = 'en-GB-Wavenet-F', -- [13] FEMALE
       ["en_US_Wavenet_A"] = 'en-US-Wavenet-A', -- [14] MALE
       ["en_US_Wavenet_B"] = 'en-US-Wavenet-B', -- [15] MALE
       ["en_US_Wavenet_C"] = 'en-US-Wavenet-C', -- [16] FEMALE
       ["en_US_Wavenet_D"] = 'en-US-Wavenet-D', -- [17] MALE
       ["en_US_Wavenet_E"] = 'en-US-Wavenet-E', -- [18] FEMALE
       ["en_US_Wavenet_F"] = 'en-US-Wavenet-F', -- [19] FEMALE
       ["en_US_Wavenet_G"] = 'en-US-Wavenet-G', -- [20] FEMALE
       ["en_US_Wavenet_H"] = 'en-US-Wavenet-H', -- [21] FEMALE
       ["en_US_Wavenet_I"] = 'en-US-Wavenet-I', -- [22] MALE
       ["en_US_Wavenet_J"] = 'en-US-Wavenet-J', -- [23] MALE
       ["fr_FR_Wavenet_A"] = "fr-FR-Wavenet-A", -- Female
       ["fr_FR_Wavenet_B"] = "fr-FR-Wavenet-B", -- Male
       ["fr_FR_Wavenet_C"] = "fr-FR-Wavenet-C", -- Female
       ["fr_FR_Wavenet_D"] = "fr-FR-Wavenet-D", -- Male
       ["fr_FR_Wavenet_E"] = "fr-FR-Wavenet-E", -- Female
       ["de_DE_Wavenet_A"] = "de-DE-Wavenet-A", -- Female
       ["de_DE_Wavenet_B"] = "de-DE-Wavenet-B", -- Male
       ["de_DE_Wavenet_C"] = "de-DE-Wavenet-C", -- Female
       ["de_DE_Wavenet_D"] = "de-DE-Wavenet-D", -- Male
       ["de_DE_Wavenet_E"] = "de-DE-Wavenet-E", -- Male
       ["de_DE_Wavenet_F"] = "de-DE-Wavenet-F", -- Female      
       ["es_ES_Wavenet_B"] = "es-ES-Wavenet-B", -- Male
       ["es_ES_Wavenet_C"] = "es-ES-Wavenet-C", -- Female
       ["es_ES_Wavenet_D"] = "es-ES-Wavenet-D", -- Female
       ["it_IT_Wavenet_A"] = "it-IT-Wavenet-A", -- Female
       ["it_IT_Wavenet_B"] = "it-IT-Wavenet-B", -- Female
       ["it_IT_Wavenet_C"] = "it-IT-Wavenet-C", -- Male
       ["it_IT_Wavenet_D"] = "it-IT-Wavenet-D", -- Male
      } , 
    },
  }
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -- TODO list
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
-- TODO: Add functions to add/remove freqs and modulations.
+-- TODO: Add functions to remove freqs and modulations.
 -- DONE: Add coordinate.
 -- DONE: Add google.
@@ -311,6 +412,24 @@ function MSRS:SetFrequencies(Frequencies)
  return self
 end
 --- Add frequencies.
 -- @param #MSRS self
 -- @param #table Frequencies Frequencies in MHz. Can also be given as a #number if only one frequency should be used.
 -- @return #MSRS self
 function MSRS:AddFrequencies(Frequencies)
  -- Ensure table.
  if type(Frequencies)~="table" then
    Frequencies={Frequencies}
  end
  for _,_freq in pairs(Frequencies) do
    table.insert(self.frequencies,_freq)
  end
  return self
 end
 --- Get frequencies.
 -- @param #MSRS self
 -- @param #table Frequencies in MHz.
@@ -335,6 +454,24 @@ function MSRS:SetModulations(Modulations)
  return self
 end
 --- Add modulations.
 -- @param #MSRS self
 -- @param #table Modulations Modulations. Can also be given as a #number if only one modulation should be used.
 -- @return #MSRS self
 function MSRS:AddModulations(Modulations)
  -- Ensure table.
  if type(Modulations)~="table" then
    Modulations={Modulations}
  end
   for _,_mod in pairs(Modulations) do
    table.insert(self.modulations,_mod)
   end
  return self
 end
 --- Get modulations.
 -- @param #MSRS self
 -- @param #table Modulations.
@@ -455,20 +592,9 @@ function MSRS:PlaySoundFile(Soundfile, Delay)
    -- Append file.
    command=command..' --file="'..tostring(soundfile)..'"'
    -- Execute command.
    self:_ExecCommand(command)
    --[[
    command=command.." > bla.txt"
    -- Debug output.
    self:I(string.format("MSRS PlaySoundfile command=%s", command))
    -- Execute SRS command.
    local x=os.execute(command)
    ]]
  end
  return self
@@ -494,16 +620,6 @@ function MSRS:PlaySoundText(SoundText, Delay)
    -- Execute command.
    self:_ExecCommand(command)
    --[[
    command=command.." > bla.txt"
    -- Debug putput.
    self:I(string.format("MSRS PlaySoundfile command=%s", command))
    -- Execute SRS command.
    local x=os.execute(command)
    ]]
  end
  return self
@@ -529,37 +645,48 @@ function MSRS:PlayText(Text, Delay)
    -- Execute command.
    self:_ExecCommand(command)
    --[[
    -- Check that length of command is max 255 chars or os.execute() will not work!
    if string.len(command)>255 then
      -- Create a tmp file.
      local filename = os.getenv('TMP') .. "\\MSRS-"..STTS.uuid()..".bat"
      local script = io.open(filename, "w+")
      script:write(command.." && exit")
      script:close()
      -- Play command.  
      command=string.format("\"%s\"", filename)
      -- Play file in 0.05 seconds
      timer.scheduleFunction(os.execute, command, timer.getTime()+0.05)
      -- Remove file in 1 second.
      timer.scheduleFunction(os.remove, filename, timer.getTime()+1)
    else
      -- Debug output.
      self:I(string.format("MSRS Text command=%s", command))
      -- Execute SRS command.
      local x=os.execute(command)
  end
-    ]]
+  return self
 end
 --- Play text message via STTS with explicitly specified options.
 -- @param #MSRS self
 -- @param #string Text Text message.
 -- @param #number Delay Delay in seconds, before the message is played.
 -- @param #table Frequencies Radio frequencies.
 -- @param #table Modulations Radio modulations.
 -- @param #string Gender Gender.
 -- @param #string Culture Culture.
 -- @param #string Voice Voice.
 -- @param #number Volume Volume.
 -- @param #string Label Label.
 -- @return #MSRS self
 function MSRS:PlayTextExt(Text, Delay, Frequencies, Modulations, Gender, Culture, Voice, Volume, Label)
  if Delay and Delay>0 then
    self:ScheduleOnce(Delay, MSRS.PlayTextExt, self, Text, 0, Frequencies, Modulations, Gender, Culture, Voice, Volume, Label)
  else
    -- Ensure table.
    if Frequencies and type(Frequencies)~="table" then
      Frequencies={Frequencies}
    end
    -- Ensure table.
    if Modulations and type(Modulations)~="table" then
      Modulations={Modulations}
    end
    -- Get command line.
    local command=self:_GetCommand(Frequencies, Modulations, nil, Gender, Voice, Culture, Volume, nil, nil, Label)    
    -- Append text.
    command=command..string.format(" --text=\"%s\"", tostring(Text))
    -- Execute command.
    self:_ExecCommand(command)
  end
  return self
@@ -717,16 +844,8 @@ function MSRS:_GetCommand(freqs, modus, coal, gender, voice, culture, volume, sp
  modus=modus:gsub("0", "AM")
  modus=modus:gsub("1", "FM")
  -- This did not work well. Stopped if the transmission was a bit longer with no apparent error.  
  --local command=string.format("%s --freqs=%s --modulations=%s --coalition=%d --port=%d --volume=%.2f --speed=%d", exe, freqs, modus, coal, port, volume, speed)
  -- Command from orig STTS script. Works better for some unknown reason!
  --local command=string.format("start /min \"\" /d \"%s\" /b \"%s\" -f %s -m %s -c %s -p %s -n \"%s\" -h", path, exe, freqs, modus, coal, port, "ROBOT")
  --local command=string.format('start /b "" /d "%s" "%s" -f %s -m %s -c %s -p %s -n "%s" > bla.txt', path, exe, freqs, modus, coal, port, "ROBOT")
  -- Command.
-  local command=string.format('"%s\\%s" -f %s -m %s -c %s -p %s -n "%s" -v "%.1f"', path, exe, freqs, modus, coal, port, label,volume)
+  local command=string.format('"%s\\%s" -f "%s" -m "%s" -c %s -p %s -n "%s" -v "%.1f"', path, exe, freqs, modus, coal, port, label,volume)
  -- Set voice or gender/culture.
  if voice then
@@ -760,6 +879,378 @@ function MSRS:_GetCommand(freqs, modus, coal, gender, voice, culture, volume, sp
  return command
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 --- Manages radio transmissions.
 -- 
 -- The purpose of the MSRSQUEUE class is to manage SRS text-to-speech (TTS) messages using the MSRS class.
 -- This can be used to submit multiple TTS messages and the class takes care that they are transmitted one after the other (and not overlapping).
 -- 
 -- @type MSRSQUEUE
 -- @field #string ClassName Name of the class "MSRSQUEUE".
 -- @field #string lid ID for dcs.log.
 -- @field #table queue The queue of transmissions.
 -- @field #string alias Name of the radio queue.
 -- @field #number dt Time interval in seconds for checking the radio queue. 
 -- @field #number Tlast Time (abs) when the last transmission finished.
 -- @field #boolean checking If `true`, the queue update function is scheduled to be called again.
 -- @extends Core.Base#BASE
 MSRSQUEUE = {
  ClassName   = "MSRSQUEUE",
  Debugmode   = nil,
  lid         = nil,
  queue       =  {},
  alias       = nil,
  dt          = nil,
  Tlast       = nil,
  checking    = nil,
 }
 --- Radio queue transmission data.
 -- @type MSRSQUEUE.Transmission
 -- @field #string text Text to be transmitted.
 -- @field Sound.SRS#MSRS msrs MOOSE SRS object.
 -- @field #number duration Duration in seconds.
 -- @field #table subgroups Groups to send subtitle to.
 -- @field #string subtitle Subtitle of the transmission.
 -- @field #number subduration Duration of the subtitle being displayed.
 -- @field #number frequency Frequency.
 -- @field #number modulation Modulation.
 -- @field #number Tstarted Mission time (abs) in seconds when the transmission started.
 -- @field #boolean isplaying If true, transmission is currently playing.
 -- @field #number Tplay Mission time (abs) in seconds when the transmission should be played.
 -- @field #number interval Interval in seconds before next transmission.
 -- @field #boolean TransmitOnlyWithPlayers If true, only transmit if there are alive Players.
 -- @field Core.Set#SET_CLIENT PlayerSet PlayerSet created when TransmitOnlyWithPlayers == true
 --- Create a new MSRSQUEUE object for a given radio frequency/modulation.
 -- @param #MSRSQUEUE self
 -- @param #string alias (Optional) Name of the radio queue.
 -- @return #MSRSQUEUE self The MSRSQUEUE object.
 function MSRSQUEUE:New(alias)
  -- Inherit base
  local self=BASE:Inherit(self, BASE:New()) --#MSRSQUEUE
  self.alias=alias or "My Radio"
  self.dt=1.0
  self.lid=string.format("MSRSQUEUE %s | ", self.alias)
  return self
 end
 --- Clear the radio queue.
 -- @param #MSRSQUEUE self
 -- @return #MSRSQUEUE self The MSRSQUEUE object.
 function MSRSQUEUE:Clear()
  self:I(self.lid.."Clearning MSRSQUEUE")
  self.queue={}
  return self
 end
 --- Add a transmission to the radio queue.
 -- @param #MSRSQUEUE self
 -- @param #MSRSQUEUE.Transmission transmission The transmission data table. 
 -- @return #MSRSQUEUE self
 function MSRSQUEUE:AddTransmission(transmission)
  -- Init.
  transmission.isplaying=false
  transmission.Tstarted=nil
  -- Add to queue.
  table.insert(self.queue, transmission)
  -- Start checking.
  if not self.checking then
    self:_CheckRadioQueue()
  end
  return self
 end
 --- Switch to only transmit if there are players on the server.
 -- @param #MSRSQUEUE self
 -- @param #boolean Switch If true, only send SRS if there are alive Players.
 -- @return #MSRSQUEUE self
 function MSRSQUEUE:SetTransmitOnlyWithPlayers(Switch)
  self.TransmitOnlyWithPlayers = Switch
  if Switch == false or Switch==nil then
    if self.PlayerSet then
      self.PlayerSet:FilterStop()
    end
    self.PlayerSet = nil
  else
    self.PlayerSet = SET_CLIENT:New():FilterStart()
  end
  return self
 end
 --- Create a new transmission and add it to the radio queue.
 -- @param #MSRSQUEUE self
 -- @param #string text Text to play.
 -- @param #number duration Duration in seconds the file lasts. Default is determined by number of characters of the text message.
 -- @param Sound.SRS#MSRS msrs MOOSE SRS object.
 -- @param #number tstart Start time (abs) seconds. Default now.
 -- @param #number interval Interval in seconds after the last transmission finished.
 -- @param #table subgroups Groups that should receive the subtiltle.
 -- @param #string subtitle Subtitle displayed when the message is played.
 -- @param #number subduration Duration [sec] of the subtitle being displayed. Default 5 sec.
 -- @param #number frequency Radio frequency if other than MSRS default.
 -- @param #number modulation Radio modulation if other then MSRS default.
 -- @return #MSRSQUEUE.Transmission Radio transmission table.
 function MSRSQUEUE:NewTransmission(text, duration, msrs, tstart, interval, subgroups, subtitle, subduration, frequency, modulation)
  if self.TransmitOnlyWithPlayers then
    if self.PlayerSet and self.PlayerSet:CountAlive() == 0 then
      return self
    end
  end
  -- Sanity checks.
  if not text then
    self:E(self.lid.."ERROR: No text specified.")
    return nil
  end
  if type(text)~="string" then
    self:E(self.lid.."ERROR: Text specified is NOT a string.")
    return nil    
  end
  -- Create a new transmission object.
  local transmission={} --#MSRSQUEUE.Transmission
  transmission.text=text
  transmission.duration=duration or STTS.getSpeechTime(text)
  transmission.msrs=msrs
  transmission.Tplay=tstart or timer.getAbsTime()
  transmission.subtitle=subtitle
  transmission.interval=interval or 0
  transmission.frequency=frequency
  transmission.modulation=modulation
  transmission.subgroups=subgroups
  if transmission.subtitle then
    transmission.subduration=subduration or transmission.duration
  else
    transmission.subduration=0 --nil
  end
  -- Add transmission to queue.  
  self:AddTransmission(transmission)
  return transmission
 end
 --- Broadcast radio message.
 -- @param #MSRSQUEUE self
 -- @param #MSRSQUEUE.Transmission transmission The transmission.
 function MSRSQUEUE:Broadcast(transmission)
  if transmission.frequency then
    transmission.msrs:PlayTextExt(transmission.text, nil, transmission.frequency, transmission.modulation, Gender, Culture, Voice, Volume, Label)
  else
    transmission.msrs:PlayText(transmission.text)
  end
  local function texttogroup(gid)
    -- Text to group.
    trigger.action.outTextForGroup(gid, transmission.subtitle, transmission.subduration, true)  
  end
  if transmission.subgroups and #transmission.subgroups>0 then
    for _,_group in pairs(transmission.subgroups) do
      local group=_group --Wrapper.Group#GROUP
      if group and group:IsAlive() then
        local gid=group:GetID()
        self:ScheduleOnce(4, texttogroup, gid) 
      end
    end
  end
 end
 --- Calculate total transmission duration of all transmission in the queue.
 -- @param #MSRSQUEUE self
 -- @return #number Total transmission duration.
 function MSRSQUEUE:CalcTransmisstionDuration()
  local Tnow=timer.getAbsTime()
  local T=0
  for _,_transmission in pairs(self.queue) do
    local transmission=_transmission --#MSRSQUEUE.Transmission
    if transmission.isplaying then
      -- Playing for dt seconds.
      local dt=Tnow-transmission.Tstarted
      T=T+transmission.duration-dt
    else
      T=T+transmission.duration
    end
  end
  return T
 end
 --- Check radio queue for transmissions to be broadcasted.
 -- @param #MSRSQUEUE self
 -- @param #number delay Delay in seconds before checking.
 function MSRSQUEUE:_CheckRadioQueue(delay)
  -- Transmissions in queue.  
  local N=#self.queue
  -- Debug info.
  self:T2(self.lid..string.format("Check radio queue %s: delay=%.3f sec, N=%d, checking=%s", self.alias, delay or 0, N, tostring(self.checking)))
  if delay and delay>0 then
    -- Delayed call.
    self:ScheduleOnce(delay, MSRSQUEUE._CheckRadioQueue, self)
    -- Checking on.
    self.checking=true
  else
    -- Check if queue is empty.
    if N==0 then
      -- Debug info.
      self:T(self.lid..string.format("Check radio queue %s empty ==> disable checking", self.alias))
      -- Queue is now empty. Nothing to else to do. We start checking again, if a transmission is added.
      self.checking=false
      return
    end
    -- Get current abs time.
    local time=timer.getAbsTime()
    -- Checking on.
    self.checking=true
    -- Set dt.
    local dt=self.dt
    local playing=false
    local next=nil  --#MSRSQUEUE.Transmission
    local remove=nil
    for i,_transmission in ipairs(self.queue) do
      local transmission=_transmission  --#MSRSQUEUE.Transmission
      -- Check if transmission time has passed.
      if time>=transmission.Tplay then 
        -- Check if transmission is currently playing.
        if transmission.isplaying then
          -- Check if transmission is finished.
          if time>=transmission.Tstarted+transmission.duration then
            -- Transmission over.
            transmission.isplaying=false
            -- Remove ith element in queue.
            remove=i
            -- Store time last transmission finished.
            self.Tlast=time
          else -- still playing
            -- Transmission is still playing.
            playing=true
            dt=transmission.duration-(time-transmission.Tstarted)
          end
        else -- not playing yet
          local Tlast=self.Tlast
          if transmission.interval==nil  then
            -- Not playing ==> this will be next.
            if next==nil then
              next=transmission
            end
          else
            if Tlast==nil or time-Tlast>=transmission.interval then
              next=transmission            
            else
            end
          end
          -- We got a transmission or one with an interval that is not due yet. No need for anything else.
          if next or Tlast then
            break
          end
        end
      else
          -- Transmission not due yet.
      end  
    end
    -- Found a new transmission.
    if next~=nil and not playing then
      -- Debug info.
      self:T(self.lid..string.format("Broadcasting text=\"%s\" at T=%.3f", next.text, time))
      -- Call SRS.
      self:Broadcast(next)
      next.isplaying=true
      next.Tstarted=time
      dt=next.duration
    end
    -- Remove completed call from queue.
    if remove then
      -- Remove from queue.
      table.remove(self.queue, remove)
      N=N-1
      -- Check if queue is empty.
      if #self.queue==0 then
        -- Debug info.
        self:T(self.lid..string.format("Check radio queue %s empty ==> disable checking", self.alias))
        self.checking=false
        return
      end
    end
    -- Check queue.
    self:_CheckRadioQueue(dt)
  end
 end
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
--- a/Development/Moose/Sound/UserSound.lua
+++ b/Development/Moose/Sound/UserSound.lua
@@ -144,7 +144,7 @@ do -- UserSound
  -- @return #USERSOUND The usersound instance.
  -- @usage
  --   local BlueVictory = USERSOUND:New( "BlueVictory.ogg" )
-  --   local PlayerUnit = UNIT:FindByName( "PlayerUnit" ) -- Search for the active group named "PlayerUnit", a human player.
+  --   local PlayerUnit = UNIT:FindByName( "PlayerUnit" ) -- Search for the active unit named "PlayerUnit", a human player.
  --   BlueVictory:ToUnit( PlayerUnit ) -- Play the victory sound to the player unit.
  --   
  function USERSOUND:ToUnit( Unit, Delay ) 
--- a/Development/Moose/Tasking/CommandCenter.lua
+++ b/Development/Moose/Tasking/CommandCenter.lua
@@ -1,4 +1,4 @@
--- **Tasking** -- A command center governs multiple missions, and takes care of the reporting and communications.
+--- **Tasking** - A command center governs multiple missions, and takes care of the reporting and communications.
 -- 
 -- **Features:**
 -- 
@@ -216,7 +216,7 @@ function COMMANDCENTER:New( CommandCenterPositionable, CommandCenterName )
          local MenuReporting = MENU_GROUP:New( EventGroup, "Missions Reports", CommandCenterMenu )
          local MenuMissionsSummary = MENU_GROUP_COMMAND:New( EventGroup, "Missions Status Report", MenuReporting, self.ReportSummary, self, EventGroup )
          local MenuMissionsDetails = MENU_GROUP_COMMAND:New( EventGroup, "Missions Players Report", MenuReporting, self.ReportMissionsPlayers, self, EventGroup )
-          self:ReportSummary( EventGroup )
+          --self:ReportSummary( EventGroup )
          local PlayerUnit = EventData.IniUnit
          for MissionID, Mission in pairs( self:GetMissions() ) do
            local Mission = Mission -- Tasking.Mission#MISSION
@@ -512,7 +512,7 @@ function COMMANDCENTER:AssignTask( TaskGroup )
  if Task then
-    self:I( "Assigning task " .. Task:GetName() .. " using auto assign method " .. self.AutoAssignMethod .. " to " .. TaskGroup:GetName() .. " with task priority " .. AssignPriority )
+    self:T( "Assigning task " .. Task:GetName() .. " using auto assign method " .. self.AutoAssignMethod .. " to " .. TaskGroup:GetName() .. " with task priority " .. AssignPriority )
    if not self.AutoAcceptTasks == true then
      Task:SetAutoAssignMethod( ACT_ASSIGN_MENU_ACCEPT:New( Task.TaskBriefing ) )
@@ -560,9 +560,11 @@ function COMMANDCENTER:SetAutoAssignTasks( AutoAssign )
  self.AutoAssignTasks = AutoAssign or false
  if self.AutoAssignTasks == true then
-    self:ScheduleRepeat( 10, 30, 0, nil, self.AssignTasks, self )
+    self.autoAssignTasksScheduleID=self:ScheduleRepeat( 10, 30, 0, nil, self.AssignTasks, self )
  else
-    self:ScheduleStop( self.AssignTasks )
+    self:ScheduleStop()
    -- FF this is not the schedule ID
    --self:ScheduleStop( self.AssignTasks )
  end
 end
--- a/Development/Moose/Tasking/DetectionManager.lua
+++ b/Development/Moose/Tasking/DetectionManager.lua
@@ -342,7 +342,7 @@ do -- DETECTION_REPORTING
    return self
  end
-  --- Creates a string of the detected items in a @{Detection}.
+  --- Creates a string of the detected items in a @{Functional.Detection} object.
  -- @param #DETECTION_MANAGER self
  -- @param Core.Set#SET_UNIT DetectedSet The detected Set created by the @{Functional.Detection#DETECTION_BASE} object.
  -- @return #DETECTION_MANAGER self
--- a/Development/Moose/Tasking/Mission.lua
+++ b/Development/Moose/Tasking/Mission.lua
@@ -1,4 +1,4 @@
--- **Tasking** -- A mission models a goal to be achieved through the execution and completion of tasks by human players.
+--- **Tasking** - A mission models a goal to be achieved through the execution and completion of tasks by human players.
 -- 
 -- **Features:**
 -- 
@@ -86,7 +86,7 @@
 --   - @{#MISSION.GetTasks}(): Retrieves a list of the tasks controlled by the mission.
 --   - @{#MISSION.GetTask}(): Retrieves a specific task controlled by the mission.
 --   - @{#MISSION.GetTasksRemaining}(): Retrieve a list of the tasks that aren't finished or failed, and are governed by the mission.
--   - @{#MISSION.GetGroupTasks}(): Retrieve a list of the tasks that can be asigned to a @{Wrapper.Group}.
+--   - @{#MISSION.GetGroupTasks}(): Retrieve a list of the tasks that can be assigned to a @{Wrapper.Group}.
 --   - @{#MISSION.GetTaskTypes}(): Retrieve a list of the different task types governed by the mission.
 -- 
 -- ### 3.3. Get the command center.
@@ -131,7 +131,7 @@ MISSION = {
 -- @param Tasking.CommandCenter#COMMANDCENTER CommandCenter
 -- @param #string MissionName Name of the mission. This name will be used to reference the status of each mission by the players.
 -- @param #string MissionPriority String indicating the "priority" of the Mission. e.g. "Primary", "Secondary". It is free format and up to the Mission designer to choose. There are no rules behind this field.
-- @param #string MissionBriefing String indicating the mission briefing to be shown when a player joins a @{CLIENT}.
+-- @param #string MissionBriefing String indicating the mission briefing to be shown when a player joins a @{Wrapper.Client#CLIENT}.
 -- @param DCS#coalition.side MissionCoalition Side of the coalition, i.e. and enumerator @{#DCS.coalition.side} corresponding to RED, BLUE or NEUTRAL.
 -- @return #MISSION self
 function MISSION:New( CommandCenter, MissionName, MissionPriority, MissionBriefing, MissionCoalition )
@@ -413,7 +413,7 @@ end
 -- @param Wrapper.Group#GROUP PlayerGroup The GROUP of the player joining the Mission.
 -- @return #boolean true if Unit is part of a Task in the Mission.
 function MISSION:JoinUnit( PlayerUnit, PlayerGroup )
-  self:I( { Mission = self:GetName(), PlayerUnit = PlayerUnit, PlayerGroup = PlayerGroup } )
+  self:T( { Mission = self:GetName(), PlayerUnit = PlayerUnit, PlayerGroup = PlayerGroup } )
  local PlayerUnitAdded = false
@@ -543,7 +543,7 @@ end
 do -- Group Assignment
-  --- Returns if the @{Mission} is assigned to the Group.
+  --- Returns if the @{Tasking.Mission} is assigned to the Group.
  -- @param #MISSION self
  -- @param Wrapper.Group#GROUP MissionGroup
  -- @return #boolean
@@ -561,7 +561,7 @@ do -- Group Assignment
  end
-  --- Set @{Wrapper.Group} assigned to the @{Mission}.
+  --- Set @{Wrapper.Group} assigned to the @{Tasking.Mission}.
  -- @param #MISSION self
  -- @param Wrapper.Group#GROUP MissionGroup
  -- @return #MISSION
@@ -571,12 +571,12 @@ do -- Group Assignment
    local MissionGroupName = MissionGroup:GetName()
    self.AssignedGroups[MissionGroupName] = MissionGroup
-    self:I( string.format( "Mission %s is assigned to %s", MissionName, MissionGroupName ) )
+    self:T( string.format( "Mission %s is assigned to %s", MissionName, MissionGroupName ) )
    return self
  end
-  --- Clear the @{Wrapper.Group} assignment from the @{Mission}.
+  --- Clear the @{Wrapper.Group} assignment from the @{Tasking.Mission}.
  -- @param #MISSION self
  -- @param Wrapper.Group#GROUP MissionGroup
  -- @return #MISSION
@@ -667,7 +667,7 @@ end
 --- Get the TASK identified by the TaskNumber from the Mission. This function is useful in GoalFunctions.
-- @param #string TaskName The Name of the @{Task} within the @{Mission}.
+-- @param #string TaskName The Name of the @{Tasking.Task} within the @{Tasking.Mission}.
 -- @return Tasking.Task#TASK The Task
 -- @return #nil Returns nil if no task was found.
 function MISSION:GetTask( TaskName )
@@ -677,9 +677,9 @@ function MISSION:GetTask( TaskName )
 end
--- Return the next @{Task} ID to be completed within the @{Mission}. 
+--- Return the next @{Tasking.Task} ID to be completed within the @{Tasking.Mission}. 
 -- @param #MISSION self
-- @param Tasking.Task#TASK Task is the @{Task} object.
+-- @param Tasking.Task#TASK Task is the @{Tasking.Task} object.
 -- @return Tasking.Task#TASK The task added.
 function MISSION:GetNextTaskID( Task )
@@ -689,16 +689,16 @@ function MISSION:GetNextTaskID( Task )
 end
--- Register a @{Task} to be completed within the @{Mission}. 
+--- Register a @{Tasking.Task} to be completed within the @{Tasking.Mission}. 
-- Note that there can be multiple @{Task}s registered to be completed. 
+-- Note that there can be multiple @{Tasking.Task}s registered to be completed. 
 -- Each Task can be set a certain Goals. The Mission will not be completed until all Goals are reached.
 -- @param #MISSION self
-- @param Tasking.Task#TASK Task is the @{Task} object.
+-- @param Tasking.Task#TASK Task is the @{Tasking.Task} object.
 -- @return Tasking.Task#TASK The task added.
 function MISSION:AddTask( Task )
  local TaskName = Task:GetTaskName()
-  self:I( { "==> Adding TASK ", MissionName = self:GetName(), TaskName = TaskName } )
+  self:T( { "==> Adding TASK ", MissionName = self:GetName(), TaskName = TaskName } )
  self.Tasks[TaskName] = Task
@@ -708,16 +708,16 @@ function MISSION:AddTask( Task )
 end
--- Removes a @{Task} to be completed within the @{Mission}. 
+--- Removes a @{Tasking.Task} to be completed within the @{Tasking.Mission}. 
-- Note that there can be multiple @{Task}s registered to be completed. 
+-- Note that there can be multiple @{Tasking.Task}s registered to be completed. 
 -- Each Task can be set a certain Goals. The Mission will not be completed until all Goals are reached.
 -- @param #MISSION self
-- @param Tasking.Task#TASK Task is the @{Task} object.
+-- @param Tasking.Task#TASK Task is the @{Tasking.Task} object.
 -- @return #nil The cleaned Task reference.
 function MISSION:RemoveTask( Task )
  local TaskName = Task:GetTaskName()
-  self:I( { "<== Removing TASK ", MissionName = self:GetName(), TaskName = TaskName } )
+  self:T( { "<== Removing TASK ", MissionName = self:GetName(), TaskName = TaskName } )
  self:F( TaskName )
  self.Tasks[TaskName] = self.Tasks[TaskName] or { n = 0 }
@@ -733,35 +733,35 @@ function MISSION:RemoveTask( Task )
  return nil
 end
--- Is the @{Mission} **COMPLETED**.
+--- Is the @{Tasking.Mission} **COMPLETED**.
 -- @param #MISSION self
 -- @return #boolean
 function MISSION:IsCOMPLETED()
  return self:Is( "COMPLETED" )
 end
--- Is the @{Mission} **IDLE**.
+--- Is the @{Tasking.Mission} **IDLE**.
 -- @param #MISSION self
 -- @return #boolean
 function MISSION:IsIDLE()
  return self:Is( "IDLE" )
 end
--- Is the @{Mission} **ENGAGED**.
+--- Is the @{Tasking.Mission} **ENGAGED**.
 -- @param #MISSION self
 -- @return #boolean
 function MISSION:IsENGAGED()
  return self:Is( "ENGAGED" )
 end
--- Is the @{Mission} **FAILED**.
+--- Is the @{Tasking.Mission} **FAILED**.
 -- @param #MISSION self
 -- @return #boolean
 function MISSION:IsFAILED()
  return self:Is( "FAILED" )
 end
--- Is the @{Mission} **HOLD**.
+--- Is the @{Tasking.Mission} **HOLD**.
 -- @param #MISSION self
 -- @return #boolean
 function MISSION:IsHOLD()
@@ -1105,7 +1105,7 @@ function MISSION:ReportDetails( ReportGroup )
 end
 --- Get all the TASKs from the Mission. This function is useful in GoalFunctions.
-- @return {TASK,...} Structure of TASKS with the @{TASK} number as the key.
+-- @return {TASK,...} Structure of TASKS with the @{Tasking.Task#TASK} number as the key.
 -- @usage
 -- -- Get Tasks from the Mission.
 -- Tasks = Mission:GetTasks()
--- a/Show More
+++ b/Show More