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Clean up UTF-8 mess

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Applevangelist
2021-08-18 18:01:04 +02:00
parent 20f28b3d2c
commit c7ea45e5fd
14 changed files with 146 additions and 147 deletions
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10
Moose Development/Moose/Functional/Detection.lua
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@@ -153,12 +153,12 @@ do -- DETECTION_BASE
-- Upon a **visual** detection, the higher the unit is during the detecting process, the more likely the detected unit is to be detected properly.
-- A detection at a 90% alpha angle is the most optimal, a detection at 10% is less and a detection at 0% is less likely to be correct.
--
-- A probability factor between 0 and 1 can be given, that will model a progressive extrapolated probability if the target would be detected at a 0° angle.
-- A probability factor between 0 and 1 can be given, that will model a progressive extrapolated probability if the target would be detected at a 0° angle.
--
-- For example, if a alpha angle probability factor of 0.7 is given, the extrapolated probabilities of the different angles would look like:
-- 0°: 70%, 10°: 75,21%, 20°: 80,26%, 30°: 85%, 40°: 89,28%, 50°: 92,98%, 60°: 95,98%, 70°: 98,19%, 80°: 99,54%, 90°: 100%
-- 0°: 70%, 10°: 75,21%, 20°: 80,26%, 30°: 85%, 40°: 89,28%, 50°: 92,98%, 60°: 95,98%, 70°: 98,19%, 80°: 99,54%, 90°: 100%
--
-- Use the method @{Functional.Detection#DETECTION_BASE.SetAlphaAngleProbability}() to set the probability factor if 0°.
-- Use the method @{Functional.Detection#DETECTION_BASE.SetAlphaAngleProbability}() to set the probability factor if 0°.
--
-- ### Cloudy Zones detection probability
--
@@ -1155,10 +1155,10 @@ do -- DETECTION_BASE
--- Upon a **visual** detection, the higher the unit is during the detecting process, the more likely the detected unit is to be detected properly.
-- A detection at a 90% alpha angle is the most optimal, a detection at 10% is less and a detection at 0% is less likely to be correct.
--
-- A probability factor between 0 and 1 can be given, that will model a progressive extrapolated probability if the target would be detected at a 0° angle.
-- A probability factor between 0 and 1 can be given, that will model a progressive extrapolated probability if the target would be detected at a 0° angle.
--
-- For example, if a alpha angle probability factor of 0.7 is given, the extrapolated probabilities of the different angles would look like:
-- 0°: 70%, 10°: 75,21%, 20°: 80,26%, 30°: 85%, 40°: 89,28%, 50°: 92,98%, 60°: 95,98%, 70°: 98,19%, 80°: 99,54%, 90°: 100%
-- 0°: 70%, 10°: 75,21%, 20°: 80,26%, 30°: 85%, 40°: 89,28%, 50°: 92,98%, 60°: 95,98%, 70°: 98,19%, 80°: 99,54%, 90°: 100%
-- @param #DETECTION_BASE self
-- @param AlphaAngleProbability The probability factor.
-- @return #DETECTION_BASE self