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@@ -144,6 +144,7 @@ class Node:
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def __init__(self, inbound : Inbound, referenceTime : datetime, weatherModel : WeatherModel,
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navData : SctEseFormat, sequencingConfig : AirportSequencing):
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self.PredictedDistanceToIAF = inbound.Report.distanceToIAF
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+ self.PredictedCoordinate = [ inbound.CurrentPosition.latitude, inbound.CurrentPosition.longitude ]
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self.ArrivalCandidates = {}
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self.Inbound = inbound
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@@ -157,17 +158,14 @@ class Node:
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course = weatherModel.estimateCourse(inbound.Report.dynamics.altitude, inbound.Report.dynamics.groundSpeed, inbound.Report.dynamics.heading)
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tempWaypoint = Waypoint(longitude = inbound.CurrentPosition.longitude, latitude = inbound.CurrentPosition.latitude)
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gs = inbound.Report.dynamics.groundSpeed * 0.514444 # ground speed in m/s
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- distance = gs * timePrediction * 0.000539957 # distance back to nm
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+ distance = gs * timePrediction
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+ self.PredictedCoordinate = tempWaypoint.project(course, distance)
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# calculate the bearing between the current position and the IAF
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star = Node.findArrivalRoute(inbound.Report.initialApproachFix, sequencingConfig.ActiveArrivalRunways[0].Runway, navData)
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- if None != star:
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- bearing = tempWaypoint.bearing(star.Route[0])
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- else:
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- bearing = inbound.Report.dynamics.heading
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# calculate the distance based on the flown distance and update the predicted distance
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- self.PredictedDistanceToIAF -= math.cos(math.radians(bearing - course)) * distance
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+ self.PredictedDistanceToIAF = Waypoint(longitude = self.PredictedCoordinate[1], latitude = self.PredictedCoordinate[0]).haversine(star.Route[0])
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if 0.0 > self.PredictedDistanceToIAF:
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self.PredictedDistanceToIAF = 0.0
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Sven Czarnian