ThirdBodyAttraction.java
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* Unless required by applicable law or agreed to in writing, software
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package org.orekit.forces.gravity;
import java.util.Collections;
import java.util.List;
import java.util.stream.Stream;
import org.hipparchus.Field;
import org.hipparchus.CalculusFieldElement;
import org.hipparchus.geometry.euclidean.threed.FieldVector3D;
import org.hipparchus.geometry.euclidean.threed.Vector3D;
import org.hipparchus.util.FastMath;
import org.orekit.bodies.CelestialBodies;
import org.orekit.bodies.CelestialBody;
import org.orekit.forces.AbstractForceModel;
import org.orekit.propagation.FieldSpacecraftState;
import org.orekit.propagation.SpacecraftState;
import org.orekit.propagation.events.EventDetector;
import org.orekit.propagation.events.FieldEventDetector;
import org.orekit.utils.ParameterDriver;
/** Third body attraction force model.
*
* @author Fabien Maussion
* @author Véronique Pommier-Maurussane
*/
public class ThirdBodyAttraction extends AbstractForceModel {
/** Suffix for parameter name for attraction coefficient enabling Jacobian processing. */
public static final String ATTRACTION_COEFFICIENT_SUFFIX = " attraction coefficient";
/** Central attraction scaling factor.
* <p>
* We use a power of 2 to avoid numeric noise introduction
* in the multiplications/divisions sequences.
* </p>
*/
private static final double MU_SCALE = FastMath.scalb(1.0, 32);
/** Drivers for third body attraction coefficient. */
private final ParameterDriver gmParameterDriver;
/** The body to consider. */
private final CelestialBody body;
/** Simple constructor.
* @param body the third body to consider
* (ex: {@link CelestialBodies#getSun()} or
* {@link CelestialBodies#getMoon()})
*/
public ThirdBodyAttraction(final CelestialBody body) {
gmParameterDriver = new ParameterDriver(body.getName() + ATTRACTION_COEFFICIENT_SUFFIX,
body.getGM(), MU_SCALE,
0.0, Double.POSITIVE_INFINITY);
this.body = body;
}
/** {@inheritDoc} */
@Override
public boolean dependsOnPositionOnly() {
return true;
}
/** {@inheritDoc} */
@Override
public Vector3D acceleration(final SpacecraftState s, final double[] parameters) {
final double gm = parameters[0];
// compute bodies separation vectors and squared norm
final Vector3D centralToBody = body.getPVCoordinates(s.getDate(), s.getFrame()).getPosition();
final double r2Central = centralToBody.getNormSq();
final Vector3D satToBody = centralToBody.subtract(s.getPVCoordinates().getPosition());
final double r2Sat = satToBody.getNormSq();
// compute relative acceleration
return new Vector3D(gm / (r2Sat * FastMath.sqrt(r2Sat)), satToBody,
-gm / (r2Central * FastMath.sqrt(r2Central)), centralToBody);
}
/** {@inheritDoc} */
@Override
public <T extends CalculusFieldElement<T>> FieldVector3D<T> acceleration(final FieldSpacecraftState<T> s,
final T[] parameters) {
final T gm = parameters[0];
// compute bodies separation vectors and squared norm
final FieldVector3D<T> centralToBody = new FieldVector3D<>(s.getA().getField(),
body.getPVCoordinates(s.getDate().toAbsoluteDate(), s.getFrame()).getPosition());
final T r2Central = centralToBody.getNormSq();
final FieldVector3D<T> satToBody = centralToBody.subtract(s.getPVCoordinates().getPosition());
final T r2Sat = satToBody.getNormSq();
// compute relative acceleration
return new FieldVector3D<>(r2Sat.multiply(r2Sat.sqrt()).reciprocal().multiply(gm), satToBody,
r2Central.multiply(r2Central.sqrt()).reciprocal().multiply(gm).negate(), centralToBody);
}
/** {@inheritDoc} */
public Stream<EventDetector> getEventsDetectors() {
return Stream.empty();
}
/** {@inheritDoc} */
@Override
public <T extends CalculusFieldElement<T>> Stream<FieldEventDetector<T>> getFieldEventsDetectors(final Field<T> field) {
return Stream.empty();
}
/** {@inheritDoc} */
@Override
public List<ParameterDriver> getParametersDrivers() {
return Collections.singletonList(gmParameterDriver);
}
}