Uses of Class
org.orekit.ssa.metrics.ProbabilityOfCollision

Packages that use ProbabilityOfCollision

Package	Description
org.orekit.ssa.collision.shorttermencounter.probability.twod	Package specific to calculus assuming a 2D short-term encounter model.

Uses of ProbabilityOfCollision in org.orekit.ssa.collision.shorttermencounter.probability.twod

Methods in org.orekit.ssa.collision.shorttermencounter.probability.twod that return ProbabilityOfCollision

Modifier and Type	Method	Description
ProbabilityOfCollision	AbstractAlfriend1999.compute(double xm, double ym, double sigmaX, double sigmaY, double radius)	Compute the probability of collision using arguments specific to the rotated encounter frame.
ProbabilityOfCollision	AbstractShortTermEncounter1DNumerical2DPOCMethod.compute(double xm, double ym, double sigmaX, double sigmaY, double radius)	Compute the probability of collision using arguments specific to the rotated encounter frame.
abstract ProbabilityOfCollision	AbstractShortTermEncounter1DNumerical2DPOCMethod.compute(double xm, double ym, double sigmaX, double sigmaY, double radius, UnivariateIntegrator customIntegrator, int customMaxNbOfEval)	Compute the probability of collision using arguments specific to the rotated encounter frame and custom numerical configuration.
ProbabilityOfCollision	AbstractShortTermEncounter1DNumerical2DPOCMethod.compute(Cdm cdm, double primaryRadius, double secondaryRadius, UnivariateIntegrator customIntegrator, int customMaxNbOfEval, double zeroThreshold)	Compute the probability of collision using an Orekit Conjunction Data Message.
ProbabilityOfCollision	AbstractShortTermEncounter1DNumerical2DPOCMethod.compute(Orbit primaryAtTCA, StateCovariance primaryCovariance, double primaryRadius, Orbit secondaryAtTCA, StateCovariance secondaryCovariance, double secondaryRadius, UnivariateIntegrator customIntegrator, int customMaxNbOfEval, double zeroThreshold)	Compute the probability of collision using parameters necessary for creating a collision definition instance.
ProbabilityOfCollision	AbstractShortTermEncounter1DNumerical2DPOCMethod.compute(ShortTermEncounter2DDefinition encounterDefinition, UnivariateIntegrator customIntegrator, int customMaxNbOfEval, double zeroThreshold)	Compute the probability of collision using a given collision definition.
ProbabilityOfCollision	AbstractShortTermEncounter2DPOCMethod.compute(Cdm cdm, double combinedRadius)	Compute the probability of collision using a Conjunction Data Message (CDM).
ProbabilityOfCollision	AbstractShortTermEncounter2DPOCMethod.compute(Orbit primaryAtTCA, StateCovariance primaryCovariance, Orbit secondaryAtTCA, StateCovariance secondaryCovariance, double combinedRadius, double zeroThreshold)	Compute the probability of collision using parameters necessary for creating a collision definition instance.
ProbabilityOfCollision	AbstractShortTermEncounter2DPOCMethod.compute(ShortTermEncounter2DDefinition encounter, double zeroThreshold)	Compute the probability of collision using given collision definition.
ProbabilityOfCollision	Alfano2005.compute(double xm, double ym, double sigmaX, double sigmaY, double radius)	Compute the probability of collision using arguments specific to the rotated encounter frame.
ProbabilityOfCollision	Chan1997.compute(double xm, double ym, double sigmaX, double sigmaY, double radius)	Compute the probability of collision using arguments specific to the rotated encounter frame.
ProbabilityOfCollision	Laas2015.compute(double xm, double ym, double sigmaX, double sigmaY, double radius)	Compute the probability of collision using arguments specific to the rotated encounter frame.
ProbabilityOfCollision	Patera2005.compute(double xm, double ym, double sigmaX, double sigmaY, double radius, UnivariateIntegrator integrator, int customMaxNbOfEval)	Compute the probability of collision using arguments specific to the rotated encounter frame and custom numerical configuration.
ProbabilityOfCollision	ShortTermEncounter2DPOCMethod.compute(double xm, double ym, double sigmaX, double sigmaY, double radius)	Compute the probability of collision using arguments specific to the rotated encounter frame.
ProbabilityOfCollision	ShortTermEncounter2DPOCMethod.compute(Cdm cdm, double combinedRadius)	Compute the probability of collision using a Conjunction Data Message (CDM).
default ProbabilityOfCollision	ShortTermEncounter2DPOCMethod.compute(Cdm cdm, double primaryRadius, double secondaryRadius)	Compute the probability of collision using a Conjunction Data Message (CDM).
default ProbabilityOfCollision	ShortTermEncounter2DPOCMethod.compute(Orbit primaryAtTCA, StateCovariance primaryCovariance, double primaryRadius, Orbit secondaryAtTCA, StateCovariance secondaryCovariance, double secondaryRadius)	Compute the probability of collision using parameters necessary for creating a collision definition instance.
default ProbabilityOfCollision	ShortTermEncounter2DPOCMethod.compute(Orbit primaryAtTCA, StateCovariance primaryCovariance, Orbit secondaryAtTCA, StateCovariance secondaryCovariance, double combinedRadius)	Compute the probability of collision using parameters necessary for creating a collision definition instance.
ProbabilityOfCollision	ShortTermEncounter2DPOCMethod.compute(Orbit primaryAtTCA, StateCovariance primaryCovariance, Orbit secondaryAtTCA, StateCovariance secondaryCovariance, double combinedRadius, double zeroThreshold)	Compute the probability of collision using parameters necessary for creating a collision definition instance.
default ProbabilityOfCollision	ShortTermEncounter2DPOCMethod.compute(ShortTermEncounter2DDefinition encounter)	Compute the probability of collision using given collision definition.
ProbabilityOfCollision	ShortTermEncounter2DPOCMethod.compute(ShortTermEncounter2DDefinition encounter, double zeroThreshold)	Compute the probability of collision using given collision definition.