MultipleShooter.java
/* Copyright 2002-2022 CS GROUP
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* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* CS licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
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package org.orekit.utils;
import java.util.List;
import java.util.Map;
import java.util.stream.Collectors;
import org.orekit.propagation.SpacecraftState;
import org.orekit.propagation.numerical.EpochDerivativesEquations;
import org.orekit.propagation.numerical.NumericalPropagator;
/**
* Multiple shooting method applicable for trajectories, in an ephemeris model.
* Not suited for closed orbits.
* @see "TRAJECTORY DESIGN AND ORBIT MAINTENANCE STRATEGIES IN MULTI-BODY DYNAMICAL REGIMES by Thomas A. Pavlak, Purdue University"
* @author William Desprats
* @since 10.2
*/
public class MultipleShooter extends AbstractMultipleShooting {
/** Name of the additional derivatives. */
private static final String DERIVATIVES = "derivatives";
/** Derivatives linked to the Propagators.
* @since 11.1
*/
private final List<EpochDerivativesEquations> epochEquations;
/** Simple Constructor.
* <p> Standard constructor for multiple shooting which can be used with the CR3BP model.</p>
* @param initialGuessList initial patch points to be corrected.
* @param propagatorList list of propagators associated to each patch point.
* @param additionalEquations list of additional equations linked to propagatorList.
* @param arcDuration initial guess of the duration of each arc.
* @param tolerance convergence tolerance on the constraint vector
* @deprecated as of 11.1, replaced by {@link #MultipleShooter(List, List, List, double, double, int)}
*/
@Deprecated
public MultipleShooter(final List<SpacecraftState> initialGuessList, final List<NumericalPropagator> propagatorList,
final List<org.orekit.propagation.integration.AdditionalEquations> additionalEquations,
final double arcDuration, final double tolerance) {
super(initialGuessList, propagatorList, additionalEquations, arcDuration, tolerance, DERIVATIVES);
epochEquations = additionalEquations.stream().map(ae -> (EpochDerivativesEquations) ae).collect(Collectors.toList());
}
/** Simple Constructor.
* <p> Standard constructor for multiple shooting which can be used with the CR3BP model.</p>
* @param initialGuessList initial patch points to be corrected.
* @param propagatorList list of propagators associated to each patch point.
* @param epochEquations list of additional derivatives providers linked to propagatorList.
* @param arcDuration initial guess of the duration of each arc.
* @param tolerance convergence tolerance on the constraint vector
* @param maxIter maximum number of iterations
*/
public MultipleShooter(final List<SpacecraftState> initialGuessList, final List<NumericalPropagator> propagatorList,
final List<EpochDerivativesEquations> epochEquations, final double arcDuration,
final double tolerance, final int maxIter) {
super(initialGuessList, propagatorList, arcDuration, tolerance, maxIter, DERIVATIVES);
this.epochEquations = epochEquations;
}
/** {@inheritDoc} */
protected SpacecraftState getAugmentedInitialState(final int i) {
return epochEquations.get(i).setInitialJacobians(getPatchPoint(i));
}
/** {@inheritDoc} */
protected double[][] computeAdditionalJacobianMatrix(final List<SpacecraftState> propagatedSP) {
final Map<Integer, Double> mapConstraints = getConstraintsMap();
final int n = mapConstraints.size();
final int ncolumns = getNumberOfFreeVariables() - 1;
final double[][] M = new double[n][ncolumns];
int k = 0;
for (int index : mapConstraints.keySet()) {
M[k][index] = 1;
k++;
}
return M;
}
/** {@inheritDoc} */
protected double[] computeAdditionalConstraints(final List<SpacecraftState> propagatedSP) {
// The additional constraint vector has the following form :
// [ y1i - y1d ]---- other constraints (component of
// Fadd(X) = [ ... ] | a patch point equals to a
// [vz2i - vz2d]---- desired value)
// Number of additional constraints
final int n = getConstraintsMap().size();
final double[] fxAdditionnal = new double[n];
// Update additional constraints
updateAdditionalConstraints(0, fxAdditionnal);
return fxAdditionnal;
}
}