OsculatingToEcksteinHechlerConverter.java
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package org.orekit.propagation.conversion.averaging.converters;
import org.orekit.forces.gravity.potential.UnnormalizedSphericalHarmonicsProvider;
import org.orekit.orbits.CircularOrbit;
import org.orekit.orbits.Orbit;
import org.orekit.propagation.analytical.EcksteinHechlerPropagator;
import org.orekit.propagation.conversion.averaging.EcksteinHechlerOrbitalState;
import org.orekit.propagation.conversion.averaging.elements.AveragedCircularWithMeanAngle;
/**
* Class for osculating-to-averaged conversion according to Eckstein-Hechler theory.
*
* @author Romain Serra
* @see EcksteinHechlerPropagator
* @see EcksteinHechlerOrbitalState
* @since 12.1
*/
public class OsculatingToEcksteinHechlerConverter
extends FixedPointOsculatingToAveragedConverter<EcksteinHechlerOrbitalState> {
/** Order for spherical harmonics. */
private static final int HARMONICS_ORDER = 0;
/** Spherical harmonics provider. */
private final UnnormalizedSphericalHarmonicsProvider harmonicsProvider;
/**
* Constructor with default parameters for fixed-point algorithm.
* @param harmonicsProvider unnormalized provider
*/
public OsculatingToEcksteinHechlerConverter(final UnnormalizedSphericalHarmonicsProvider harmonicsProvider) {
this(DEFAULT_EPSILON, DEFAULT_MAX_ITERATIONS, harmonicsProvider);
}
/**
* Constructor.
* @param epsilon convergence threshold
* @param maxIterations maximum number of iterations
* @param harmonicsProvider unnormalized provider
*/
public OsculatingToEcksteinHechlerConverter(final double epsilon, final int maxIterations,
final UnnormalizedSphericalHarmonicsProvider harmonicsProvider) {
super(epsilon, maxIterations);
this.harmonicsProvider = harmonicsProvider;
}
/** {@inheritDoc} */
@Override
public EcksteinHechlerOrbitalState convertToAveraged(final Orbit osculatingOrbit) {
final CircularOrbit averagedOrbit = createAveragedOrbit(osculatingOrbit);
final AveragedCircularWithMeanAngle elements = buildElements(averagedOrbit);
return new EcksteinHechlerOrbitalState(averagedOrbit.getDate(), elements,
averagedOrbit.getFrame(), harmonicsProvider);
}
/**
* Build averaged orbit.
* @param osculatingOrbit osculating orbit
* @return averaged Circular orbit in Eckstein-Hechler sense.
*/
private CircularOrbit createAveragedOrbit(final Orbit osculatingOrbit) {
final UnnormalizedSphericalHarmonicsProvider.UnnormalizedSphericalHarmonics harmonics =
harmonicsProvider.onDate(osculatingOrbit.getDate());
return EcksteinHechlerPropagator.computeMeanOrbit(osculatingOrbit,
harmonicsProvider.getAe(), harmonicsProvider.getMu(),
harmonics.getUnnormalizedCnm(2, HARMONICS_ORDER),
harmonics.getUnnormalizedCnm(3, HARMONICS_ORDER),
harmonics.getUnnormalizedCnm(4, HARMONICS_ORDER),
harmonics.getUnnormalizedCnm(5, HARMONICS_ORDER),
harmonics.getUnnormalizedCnm(6, HARMONICS_ORDER),
getEpsilon(), getMaxIterations());
}
/**
* Build averaged orbital elements from orbit.
* @param averagedOrbit averaged orbit
* @return orbital elements
*/
private AveragedCircularWithMeanAngle buildElements(final CircularOrbit averagedOrbit) {
return new AveragedCircularWithMeanAngle(averagedOrbit.getA(),
averagedOrbit.getCircularEx(), averagedOrbit.getCircularEy(), averagedOrbit.getI(),
averagedOrbit.getRightAscensionOfAscendingNode(), averagedOrbit.getAlphaM());
}
}