AngularTroposphericDelayModifier.java
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package org.orekit.estimation.measurements.modifiers;
import org.hipparchus.geometry.euclidean.threed.Vector3D;
import org.hipparchus.util.MathUtils;
import org.orekit.estimation.measurements.AngularAzEl;
import org.orekit.estimation.measurements.EstimatedMeasurementBase;
import org.orekit.estimation.measurements.EstimationModifier;
import org.orekit.estimation.measurements.GroundStation;
import org.orekit.frames.Frame;
import org.orekit.models.earth.troposphere.TroposphericModel;
import org.orekit.propagation.SpacecraftState;
import org.orekit.time.AbsoluteDate;
import org.orekit.utils.Constants;
import org.orekit.utils.ParameterDriver;
import org.orekit.utils.TrackingCoordinates;
import java.util.List;
/** Class modifying theoretical angular measurement with tropospheric delay.
* <p>
* The effect of tropospheric correction on the angular is computed
* through the computation of the tropospheric delay.The spacecraft state
* is shifted by the computed delay time and elevation and azimuth are computed
* again with the new spacecraft state.
* </p>
* <p>
* In general, for GNSS, VLBI, ... there is hardly any frequency dependence in the delay.
* For SLR techniques however, the frequency dependence is sensitive.
* </p>
* @deprecated as of 12.1, {@link AngularRadioRefractionModifier} shall be used to handle tropospheric effect on angular measurements
* @author Thierry Ceolin
* @since 8.0
*/
@Deprecated
public class AngularTroposphericDelayModifier implements EstimationModifier<AngularAzEl> {
/** Tropospheric delay model. */
private final TroposphericModel tropoModel;
/** Constructor.
*
* @param model Tropospheric delay model appropriate for the current angular measurement method.
* @deprecated as of 12.1, {@link AngularRadioRefractionModifier} shall be used to handle tropospheric effect on angular measurements
*/
@Deprecated
public AngularTroposphericDelayModifier(final org.orekit.models.earth.troposphere.DiscreteTroposphericModel model) {
this(new org.orekit.models.earth.troposphere.TroposphericModelAdapter(model));
}
/** Constructor.
*
* @param model Tropospheric delay model appropriate for the current angular measurement method.
* @since 12.1
* @deprecated as of 12.1, {@link AngularRadioRefractionModifier} shall be used to handle tropospheric effect on angular measurements
*/
@Deprecated
public AngularTroposphericDelayModifier(final TroposphericModel model) {
tropoModel = model;
}
/** Compute the measurement error due to Troposphere.
* @param station station
* @param state spacecraft state
* @return the measurement error due to Troposphere
*/
private double angularErrorTroposphericModel(final GroundStation station,
final SpacecraftState state) {
//
final Vector3D position = state.getPosition();
// tracking
final TrackingCoordinates trackingCoordinates =
station.getBaseFrame().getTrackingCoordinates(position, state.getFrame(), state.getDate());
// only consider measures above the horizon
if (trackingCoordinates.getElevation() > 0.0) {
// delay in meters
return tropoModel.pathDelay(trackingCoordinates,
station.getOffsetGeodeticPoint(state.getDate()),
station.getPressureTemperatureHumidity(state.getDate()),
tropoModel.getParameters(state.getDate()), state.getDate()).
getDelay();
}
return 0;
}
/** {@inheritDoc} */
@Override
public List<ParameterDriver> getParametersDrivers() {
return tropoModel.getParametersDrivers();
}
@Override
public void modifyWithoutDerivatives(final EstimatedMeasurementBase<AngularAzEl> estimated) {
final AngularAzEl measure = estimated.getObservedMeasurement();
final GroundStation station = measure.getStation();
final SpacecraftState state = estimated.getStates()[0];
final double delay = angularErrorTroposphericModel(station, state);
// Delay is taken into account to shift the spacecraft position
final double dt = delay / Constants.SPEED_OF_LIGHT;
// Position of the spacecraft shifted of dt
final SpacecraftState transitState = state.shiftedBy(-dt);
// Update measurement value taking into account the ionospheric delay.
final AbsoluteDate date = transitState.getDate();
final Vector3D position = transitState.getPosition();
final Frame inertial = transitState.getFrame();
// Elevation and azimuth in radians
final TrackingCoordinates tc = station.getBaseFrame().getTrackingCoordinates(position, inertial, date);
final double twoPiWrap = MathUtils.normalizeAngle(tc.getAzimuth(), measure.getObservedValue()[0]) - tc.getAzimuth();
final double azimuth = tc.getAzimuth() + twoPiWrap;
// Update estimated value taking into account the tropospheric delay.
// Azimuth - elevation values
estimated.modifyEstimatedValue(this, azimuth, tc.getElevation());
}
}