fix the issues with the time delta estimation
This commit is contained in:
Sven Czarnian
@@ -21,7 +21,7 @@ class RecedingHorizonControl:
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def insertInWindow(self, inbound : Inbound, usePTA : bool):
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if False == usePTA:
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referenceTime = inbound.InitialArrivalTime
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referenceTime = inbound.EnrouteArrivalTime
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else:
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referenceTime = inbound.PlannedArrivalTime
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@@ -34,7 +34,7 @@ class RecedingHorizonControl:
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self.AssignedWindow[inbound.Callsign] = [ i, 0 ]
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inbound.FixedSequence = i < self.FreezedIndex
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if True == inbound.FixedSequence and None == inbound.PlannedArrivalTime:
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inbound.PlannedArrivalTime = inbound.InitialArrivalTime
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inbound.PlannedArrivalTime = inbound.EnrouteArrivalTime
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window.insert(inbound)
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inserted = True
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break
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@@ -56,11 +56,11 @@ class RecedingHorizonControl:
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self.AssignedWindow[inbound.Callsign] = [ len(self.Windows) - 1, 0 ]
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inbound.FixedSequence = len(self.Windows) < self.FreezedIndex
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if True == inbound.FixedSequence and None == inbound.PlannedArrivalTime:
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inbound.PlannedArrivalTime = inbound.InitialArrivalTime
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inbound.PlannedArrivalTime = inbound.EnrouteArrivalTime
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break
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lastWindowTime = self.Windows[-1].EndTime
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window.Inbounds.sort(key = lambda x: x.PlannedArrivalTime if None != x.PlannedArrivalTime else x.InitialArrivalTime)
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window.Inbounds.sort(key = lambda x: x.PlannedArrivalTime if None != x.PlannedArrivalTime else x.EnrouteArrivalTime)
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def updateReport(self, inbound : Inbound):
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# check if we need to update
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@@ -81,18 +81,18 @@ class RecedingHorizonControl:
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# check if we need to update the inbound
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if None == plannedInbound.PlannedStar:
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reference = inbound.InitialArrivalTime
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if plannedInbound.InitialArrivalTime > reference:
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reference = plannedInbound.InitialArrivalTime
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reference = inbound.EnrouteArrivalTime
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if plannedInbound.EnrouteArrivalTime > reference:
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reference = plannedInbound.EnrouteArrivalTime
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if reference < self.Windows[index].StartTime or reference >= self.Windows[index].EndTime:
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self.Windows[index].remove(inbound.Callsign)
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self.AssignedWindow.pop(inbound.Callsign)
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inbound.InitialArrivalTime = reference
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inbound.EnrouteArrivalTime = reference
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self.updateReport(inbound)
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else:
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plannedInbound.InitialArrivalTime = reference
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self.Windows[index].Inbounds.sort(key = lambda x: x.PlannedArrivalTime if None != x.PlannedArrivalTime else x.InitialArrivalTime)
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plannedInbound.EnrouteArrivalTime = reference
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self.Windows[index].Inbounds.sort(key = lambda x: x.PlannedArrivalTime if None != x.PlannedArrivalTime else x.EnrouteArrivalTime)
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else:
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self.insertInWindow(inbound, False)
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@@ -104,7 +104,7 @@ class RecedingHorizonControl:
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self.insertInWindow(inbound, True)
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else:
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inbound.FixedSequence = index < self.FreezedIndex
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self.Windows[index].Inbounds.sort(key = lambda x: x.PlannedArrivalTime if None != x.PlannedArrivalTime else x.InitialArrivalTime)
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self.Windows[index].Inbounds.sort(key = lambda x: x.PlannedArrivalTime if None != x.PlannedArrivalTime else x.EnrouteArrivalTime)
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def lastFixedInboundOnRunway(self, runway : str):
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# no inbounds available
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@@ -138,7 +138,7 @@ class RecedingHorizonControl:
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# check if we found relevant inbounds
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if 0 != len(inbounds):
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inbounds.sort(key = lambda x: x.PlannedArrivalTime if None != x.PlannedArrivalTime else x.InitialArrivalTime)
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inbounds.sort(key = lambda x: x.PlannedArrivalTime if None != x.PlannedArrivalTime else x.EnrouteArrivalTime)
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return inbounds, earliestArrivalTime
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else:
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return None, None
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@@ -88,7 +88,7 @@ class Worker(Thread):
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if '' != report.initialApproachFix:
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inbound = Inbound(report, self.PerformanceData)
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Node(inbound, inbound.ReportTime, self.WeatherModel, self.Configuration, self.SequencingConfiguration)
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if None != inbound.InitialArrivalTime:
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if None != inbound.EnrouteArrivalTime:
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self.RecedingHorizonControl.updateReport(inbound)
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else:
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print('Unable to find all data of ' + report.aircraft.callsign)
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@@ -74,7 +74,7 @@ class Colony:
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self.Result.append(node)
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Colony.associateInbound(rwyManager, node, self.Configuration.EarliestArrivalTime)
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reqTimeDelta = self.Result[-1].Inbound.InitialArrivalTime - self.Result[-1].Inbound.PlannedArrivalTime
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reqTimeDelta = self.Result[-1].Inbound.EnrouteArrivalTime - self.Result[-1].Inbound.PlannedArrivalTime
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self.Result[-1].Inbound.PlannedArrivalRoute[0].PTA = self.Result[-1].Inbound.PlannedArrivalRoute[0].ETA - reqTimeDelta
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for i in range(1, len(self.Result[-1].Inbound.PlannedArrivalRoute)):
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prev = self.Result[-1].Inbound.PlannedArrivalRoute[i - 1]
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@@ -184,7 +184,7 @@ class Node:
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self.PredictedCoordinate = prediction
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setInitialArrivalTime = None == self.Inbound.InitialArrivalTime
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setEnrouteTime = None == self.Inbound.EnrouteArrivalTime
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# calculate the timings for the different arrival runways
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for identifier in sequencingConfig.ActiveArrivalRunways:
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@@ -214,6 +214,5 @@ class Node:
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self.ArrivalCandidates[identifier.Runway.Name] = ArrivalData(star = star, ita = earliest, route = arrivalRoute,
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trackmiles = trackmiles)
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ita = self.ArrivalCandidates[identifier.Runway.Name].InitialArrivalTime
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if True == setInitialArrivalTime and (None == self.Inbound.InitialArrivalTime or ita < self.Inbound.InitialArrivalTime):
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self.Inbound.InitialArrivalTime = ita
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if True == setEnrouteTime and (None == self.Inbound.EnrouteArrivalTime or ita < self.Inbound.EnrouteArrivalTime):
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self.Inbound.EnrouteArrivalTime = ita
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