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) |
|
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.
|
abstract ProbabilityOfCollision |
AbstractShortTermEncounter2DPOCMethod.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 |
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.
|