Package org.orekit.propagation.numerical
Interface TimeDerivativesEquations
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public interface TimeDerivativesEquations
Interface summing up the contribution of several forces into orbit and mass derivatives.The aim of this interface is to gather the contributions of various perturbing forces expressed as accelerations into one set of time-derivatives of
Orbit
plus one mass derivatives. It implements Gauss equations for different kind of parameters.An implementation of this interface is automatically provided by
integration-based propagators
, which are either semi-analytical or numerical propagators.- Author:
- Luc Maisonobe, Fabien Maussion, Véronique Pommier-Maurussane
- See Also:
ForceModel
,NumericalPropagator
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Method Summary
All Methods Instance Methods Abstract Methods Modifier and Type Method Description void
addKeplerContribution(double mu)
Add the contribution of the Kepler evolution.void
addMassDerivative(double q)
Add the contribution of the flow rate (dm/dt).void
addNonKeplerianAcceleration(org.hipparchus.geometry.euclidean.threed.Vector3D gamma)
Add the contribution of a non-Keplerian acceleration.
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Method Detail
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addKeplerContribution
void addKeplerContribution(double mu)
Add the contribution of the Kepler evolution.Since the Kepler evolution is the most important, it should be added after all the other ones, in order to improve numerical accuracy.
- Parameters:
mu
- central body gravitational constant
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addNonKeplerianAcceleration
void addNonKeplerianAcceleration(org.hipparchus.geometry.euclidean.threed.Vector3D gamma)
Add the contribution of a non-Keplerian acceleration.- Parameters:
gamma
- acceleration vector in the same inertial frame the spacecraft state is defined in (m/s²)- Since:
- 9.0
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addMassDerivative
void addMassDerivative(double q)
Add the contribution of the flow rate (dm/dt).- Parameters:
q
- the flow rate, must be negative (dm/dt)- Throws:
IllegalArgumentException
- if flow-rate is positive
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