InterSatDirectViewDetector.java
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* CS licenses this file to You under the Apache License, Version 2.0
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package org.orekit.propagation.events;
import org.orekit.bodies.GeodeticPoint;
import org.orekit.bodies.OneAxisEllipsoid;
import org.orekit.frames.Frame;
import org.orekit.propagation.PropagatorsParallelizer;
import org.orekit.propagation.SpacecraftState;
import org.orekit.propagation.events.handlers.ContinueOnEvent;
import org.orekit.propagation.events.handlers.EventHandler;
import org.orekit.time.AbsoluteDate;
import org.orekit.utils.PVCoordinatesProvider;
/** Detector for inter-satellites direct view (i.e. no masking by central body limb).
* <p>
* As this detector needs two satellites, it embeds one {@link
* PVCoordinatesProvider coordinates provider} for the secondary satellite
* and is registered as an event detector in the propagator of the primary
* satellite. The secondary satellite provider will therefore be driven by this
* detector (and hence by the propagator in which this detector is registered).
* </p>
* <p>
* In order to avoid infinite recursion, care must be taken to have the secondary
* satellite provider being <em>completely independent</em> from anything else.
* In particular, if the provider is a propagator, it should <em>not</em> be run
* together in a {@link PropagatorsParallelizer propagators parallelizer} with
* the propagator this detector is registered in. It is fine however to configure
* two separate propagators PsA and PsB with similar settings for the secondary satellite
* and one propagator Pm for the primary satellite and then use Psa in this detector
* registered within Pm while Pm and Psb are run in the context of a {@link
* PropagatorsParallelizer propagators parallelizer}.
* </p>
* <p>
* For efficiency reason during the event search loop, it is recommended to have
* the secondary provider be an analytical propagator or an ephemeris. A numerical propagator
* as a secondary propagator works but is expected to be computationally costly.
* </p>
* <p>
* The {@code g} function of this detector is positive when satellites can see
* each other directly and negative when the central body limb is in between and
* blocks the direct view.
* </p>
* <p>
* This detector only checks masking by central body limb, it does not take into
* account satellites antenna patterns. If these patterns must be considered, then
* this detector can be {@link BooleanDetector#andCombine(EventDetector...) and combined}
* with the {@link BooleanDetector#notCombine(EventDetector) logical not} of
* {@link FieldOfViewDetector field of view detectors}.
* </p>
* @author Luc Maisonobe
* @since 9.3
*/
public class InterSatDirectViewDetector extends AbstractDetector<InterSatDirectViewDetector> {
/** Central body. */
private final OneAxisEllipsoid body;
/** Skimming altitude.
* @since 12.0
*/
private final double skimmingAltitude;
/** Coordinates provider for the secondary satellite. */
private final PVCoordinatesProvider secondary;
/** simple constructor.
*
* @param body central body
* @param secondary provider for the secondary satellite
*/
public InterSatDirectViewDetector(final OneAxisEllipsoid body, final PVCoordinatesProvider secondary) {
this(body, 0.0, secondary, AdaptableInterval.of(DEFAULT_MAXCHECK), DEFAULT_THRESHOLD, DEFAULT_MAX_ITER,
new ContinueOnEvent());
}
/** Private constructor.
* @param body central body
* @param skimmingAltitude skimming altitude at which events are triggered
* @param secondary provider for the secondary satellite
* @param maxCheck maximum checking interval
* @param threshold convergence threshold (s)
* @param maxIter maximum number of iterations in the event time search
* @param handler event handler to call at event occurrences
* @since 12.0
*/
protected InterSatDirectViewDetector(final OneAxisEllipsoid body,
final double skimmingAltitude,
final PVCoordinatesProvider secondary,
final AdaptableInterval maxCheck,
final double threshold,
final int maxIter,
final EventHandler handler) {
super(maxCheck, threshold, maxIter, handler);
this.body = body;
this.skimmingAltitude = skimmingAltitude;
this.secondary = secondary;
}
/** Get the central body.
* @return central body
*/
public OneAxisEllipsoid getCentralBody() {
return body;
}
/** Get the skimming altitude.
* @return skimming altitude at which events are triggered
* @since 12.0
*/
public double getSkimmingAltitude() {
return skimmingAltitude;
}
/** Get the provider for the secondary satellite.
* @return provider for the secondary satellite
*/
public PVCoordinatesProvider getSecondary() {
return secondary;
}
/** {@inheritDoc} */
@Override
protected InterSatDirectViewDetector create(final AdaptableInterval newMaxCheck,
final double newThreshold,
final int newMaxIter,
final EventHandler newHandler) {
return new InterSatDirectViewDetector(body, skimmingAltitude, secondary,
newMaxCheck, newThreshold, newMaxIter, newHandler);
}
/**
* Setup the skimming altitude.
* <p>
* The skimming altitude is the lowest altitude of the path between satellites
* at which events should be triggered. If set to 0.0, events are triggered
* exactly when the path passes just at central body limb.
* </p>
* @param newSkimmingAltitude skimming altitude (m)
* @return a new detector with updated configuration (the instance is not changed)
* @see #getSkimmingAltitude()
* @since 12.0
*/
public InterSatDirectViewDetector withSkimmingAltitude(final double newSkimmingAltitude) {
return new InterSatDirectViewDetector(body, newSkimmingAltitude, secondary,
getMaxCheckInterval(), getThreshold(),
getMaxIterationCount(), getHandler());
}
/** {@inheritDoc}
* <p>
* The {@code g} function of this detector is the difference between the minimum
* altitude of intermediate points along the line of sight between satellites and the
* {@link #getSkimmingAltitude() skimming altitude}. It is therefore positive when
* all intermediate points are above the skimming altitude, meaning satellites can see
* each other and it is negative when some intermediate points (which may be either
* endpoints) dive below this altitude, meaning satellites cannot see each other.
* </p>
*/
@Override
public double g(final SpacecraftState state) {
// get the lowest point between primary and secondary
final AbsoluteDate date = state.getDate();
final Frame frame = body.getBodyFrame();
final GeodeticPoint lowest = body.lowestAltitudeIntermediate(state.getPosition(frame),
secondary.getPosition(date, frame));
// compute switching function value as altitude difference
return lowest.getAltitude() - skimmingAltitude;
}
}