Class ApsideDetector
- java.lang.Object
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- org.orekit.propagation.events.AbstractDetector<ApsideDetector>
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- org.orekit.propagation.events.ApsideDetector
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- All Implemented Interfaces:
EventDetector
public class ApsideDetector extends AbstractDetector<ApsideDetector>
Finder for apside crossing events.This class finds apside crossing events (i.e. apogee or perigee crossing).
The default implementation behavior is to
continue
propagation at apogee crossing and tostop
propagation at perigee crossing. This can be changed by callingAbstractDetector.withHandler(EventHandler)
after construction.Beware that apside detection will fail for almost circular orbits. If for example an apside detector is used to trigger an
ImpulseManeuver
and the maneuver change the orbit shape to circular, then the detector may completely fail just after the maneuver has been performed!- Author:
- Luc Maisonobe
- See Also:
Propagator.addEventDetector(EventDetector)
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Field Summary
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Fields inherited from class org.orekit.propagation.events.AbstractDetector
DEFAULT_MAX_ITER, DEFAULT_MAXCHECK, DEFAULT_THRESHOLD
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Constructor Summary
Constructors Constructor Description ApsideDetector(double keplerianPeriod)
Build a new instance.ApsideDetector(double threshold, Orbit orbit)
Build a new instance.ApsideDetector(Orbit orbit)
Build a new instance.ApsideDetector(AdaptableInterval maxCheck, double threshold, int maxIter, EventHandler handler)
Public constructor with full parameters.
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Method Summary
All Methods Instance Methods Concrete Methods Modifier and Type Method Description protected ApsideDetector
create(AdaptableInterval newMaxCheck, double newThreshold, int newMaxIter, EventHandler newHandler)
Build a new instance.double
g(SpacecraftState s)
Compute the value of the switching function.-
Methods inherited from class org.orekit.propagation.events.AbstractDetector
getHandler, getMaxCheckInterval, getMaxIterationCount, getThreshold, init, isForward, withHandler, withMaxCheck, withMaxCheck, withMaxIter, withThreshold
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Constructor Detail
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ApsideDetector
public ApsideDetector(double keplerianPeriod)
Build a new instance.The Keplerian period is used only to set an upper bound for the max check interval to period/3 and to set the convergence threshold.
- Parameters:
keplerianPeriod
- estimate of the Keplerian period- Since:
- 12.1
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ApsideDetector
public ApsideDetector(Orbit orbit)
Build a new instance.The orbit is used only to set an upper bound for the max check interval to period/3 and to set the convergence threshold according to orbit size
- Parameters:
orbit
- initial orbit
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ApsideDetector
public ApsideDetector(double threshold, Orbit orbit)
Build a new instance.The orbit is used only to set an upper bound for the max check interval to period/3
- Parameters:
threshold
- convergence threshold (s)orbit
- initial orbit
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ApsideDetector
public ApsideDetector(AdaptableInterval maxCheck, double threshold, int maxIter, EventHandler handler)
Public constructor with full parameters.This constructor is public because otherwise all accessible ones would require an orbit.
- Parameters:
maxCheck
- maximum checking intervalthreshold
- convergence threshold (s)maxIter
- maximum number of iterations in the event time searchhandler
- event handler to call at event occurrences- Since:
- 6.1
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Method Detail
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create
protected ApsideDetector create(AdaptableInterval newMaxCheck, double newThreshold, int newMaxIter, EventHandler newHandler)
Build a new instance.- Specified by:
create
in classAbstractDetector<ApsideDetector>
- Parameters:
newMaxCheck
- maximum checking interval (s)newThreshold
- convergence threshold (s)newMaxIter
- maximum number of iterations in the event time searchnewHandler
- event handler to call at event occurrences- Returns:
- a new instance of the appropriate sub-type
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g
public double g(SpacecraftState s)
Compute the value of the switching function. This function computes the dot product of the 2 vectors : position.velocity.- Specified by:
g
in interfaceEventDetector
- Specified by:
g
in classAbstractDetector<ApsideDetector>
- Parameters:
s
- the current state information: date, kinematics, attitude- Returns:
- value of the switching function
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