use the theoretical earliest arrival time
This commit is contained in:
Sven Czarnian
@@ -31,43 +31,34 @@ class RecedingHorizonControl:
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plannedInbound = self.Windows[index].inbound(inbound.Report.aircraft.callsign)
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plannedInbound.CurrentPosition = inbound.CurrentPosition
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plannedInbound.MaximumTimeToGain = inbound.MaximumTimeToGain
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# check if not accessed by the optimizer
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if plannedInbound.InitialArrivalTime == plannedInbound.EstimatedArrivalTime:
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notPlanned = True
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update = True
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# check if the ITA is greater or the ETA
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elif plannedInbound.EstimatedArrivalTime != inbound.InitialArrivalTime:
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notPlanned = False
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update = True
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# get the reference time and update some times in case no replacement is needed
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if plannedInbound.InitialArrivalTime == plannedInbound.EarliestArrivalTime + plannedInbound.MaximumTimeToGain:
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plannedInbound.InitialArrivalTime = inbound.InitialArrivalTime
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plannedInbound.EarliestArrivalTime = inbound.EarliestArrivalTime
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plannedInbound.EstimatedArrivalTime = inbound.EstimatedArrivalTime
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reference = inbound.EarliestArrivalTime
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else:
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plannedInbound.InitialArrivalTime = inbound.InitialArrivalTime
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if plannedInbound.EarliestArrivalTime < inbound.EarliestArrivalTime:
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plannedInbound.EarliestArrivalTime = inbound.EarliestArrivalTime
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if plannedInbound.EstimatedArrivalTime < inbound.EstimatedArrivalTime:
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plannedInbound.EstimatedArrivalTime = inbound.EstimatedArrivalTime
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reference = plannedInbound.EarliestArrivalTime
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# update the windows
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if True == update:
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if inbound.InitialArrivalTime >= self.Windows[index].StartTime and inbound.InitialArrivalTime < self.Windows[index].EndTime:
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keepInWindow = True
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else:
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keepInWindow = False
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# check if planning can be updated or needs to be due to a delay
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if True == notPlanned or plannedInbound.Inbound.EstimatedArrivalTime < inbound.InitialArrivalTime:
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# keep it in this bucket
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if True == keepInWindow:
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plannedInbound.EstimatedArrivalTime = inbound.InitialArrivalTime
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plannedInbound.InitialArrivalTime = inbound.InitialArrivalTime
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self.Windows[index].Inbounds.sort(key = lambda x: x.EstimatedArrivalTime)
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# put it in the new bucket
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else:
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self.Windows[index].remove(inbound.Report.aircraft.callsign)
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self.AssignedWindow.pop(inbound.Report.aircraft.callsign)
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self.update(inbound)
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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.Report.aircraft.callsign)
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self.AssignedWindow.pop(inbound.Report.aircraft.callsign)
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self.update(inbound)
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else:
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inserted = False
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for i in range(0, len(self.Windows)):
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window = self.Windows[i]
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# find the correct window
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if window.StartTime <= inbound.EstimatedArrivalTime and window.EndTime > inbound.EstimatedArrivalTime:
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if window.StartTime <= inbound.EarliestArrivalTime and window.EndTime > inbound.EarliestArrivalTime:
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if i > self.FreezedIndex:
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self.AssignedWindow[inbound.Report.aircraft.callsign] = [ i, 0 ]
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window.insert(inbound)
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@@ -84,10 +75,10 @@ class RecedingHorizonControl:
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while True:
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self.Windows.append(RecedingHorizonWindow(lastWindowTime, lastWindowTime + timestep))
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if self.Windows[-1].EndTime > inbound.EstimatedArrivalTime:
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if self.Windows[-1].EndTime > inbound.EarliestArrivalTime:
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self.AssignedWindow[inbound.Report.aircraft.callsign] = [ len(self.Windows) - 1, 0 ]
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self.Windows[-1].insert(inbound)
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self.Windows[-1].Inbounds.sort(key = lambda x: x.EstimatedArrivalTime)
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self.Windows[-1].Inbounds.sort(key = lambda x: x.EarliestArrivalTime)
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break
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lastWindowTime = self.Windows[-1].EndTime
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