Example 6 with RangeRateMeasurementCreator
use of org.orekit.estimation.measurements.RangeRateMeasurementCreator in project Orekit by CS-SI.
the class KalmanEstimatorTest method testCartesianRangeRate.
/**
* Perfect range rate measurements with a perfect start
* Cartesian formalism
* @throws OrekitException
*/
@Test
public void testCartesianRangeRate() throws OrekitException {
// Create context
Context context = EstimationTestUtils.eccentricContext("regular-data:potential:tides");
// Create initial orbit and propagator builder
final OrbitType orbitType = OrbitType.CARTESIAN;
final PositionAngle positionAngle = PositionAngle.TRUE;
final boolean perfectStart = true;
final double minStep = 1.e-6;
final double maxStep = 60.;
final double dP = 1.;
final NumericalPropagatorBuilder propagatorBuilder = context.createBuilder(orbitType, positionAngle, perfectStart, minStep, maxStep, dP);
// Create perfect range measurements
final Propagator propagator = EstimationTestUtils.createPropagator(context.initialOrbit, propagatorBuilder);
final List<ObservedMeasurement<?>> measurements = EstimationTestUtils.createMeasurements(propagator, new RangeRateMeasurementCreator(context, false), 1.0, 3.0, 300.0);
// Reference propagator for estimation performances
final NumericalPropagator referencePropagator = propagatorBuilder.buildPropagator(propagatorBuilder.getSelectedNormalizedParameters());
// Reference position/velocity at last measurement date
final Orbit refOrbit = referencePropagator.propagate(measurements.get(measurements.size() - 1).getDate()).getOrbit();
// Cartesian covariance matrix initialization
// 100m on position / 1e-2m/s on velocity
final RealMatrix cartesianP = MatrixUtils.createRealDiagonalMatrix(new double[] { 1e-4, 1e-4, 1e-4, 1e-10, 1e-10, 1e-10 });
// Jacobian of the orbital parameters w/r to Cartesian
final Orbit initialOrbit = orbitType.convertType(context.initialOrbit);
final double[][] dYdC = new double[6][6];
initialOrbit.getJacobianWrtCartesian(PositionAngle.TRUE, dYdC);
final RealMatrix Jac = MatrixUtils.createRealMatrix(dYdC);
// Initial covariance matrix
final RealMatrix initialP = Jac.multiply(cartesianP.multiply(Jac.transpose()));
// Process noise matrix
final RealMatrix cartesianQ = MatrixUtils.createRealDiagonalMatrix(new double[] { 1.e-6, 1.e-6, 1.e-6, 1.e-12, 1.e-12, 1.e-12 });
final RealMatrix Q = Jac.multiply(cartesianQ.multiply(Jac.transpose()));
// Build the Kalman filter
final KalmanEstimatorBuilder kalmanBuilder = new KalmanEstimatorBuilder();
kalmanBuilder.builder(propagatorBuilder);
kalmanBuilder.estimatedMeasurementsParameters(new ParameterDriversList());
kalmanBuilder.initialCovarianceMatrix(initialP);
kalmanBuilder.processNoiseMatrixProvider(new ConstantProcessNoise(Q));
final KalmanEstimator kalman = kalmanBuilder.build();
// Filter the measurements and check the results
final double expectedDeltaPos = 0.;
final double posEps = 9.50e-4;
final double expectedDeltaVel = 0.;
final double velEps = 3.49e-7;
final double[] expectedSigmasPos = { 0.324398, 1.347031, 1.743310 };
final double sigmaPosEps = 1e-6;
final double[] expectedSigmasVel = { 2.856883e-4, 5.765844e-4, 5.056186e-4 };
final double sigmaVelEps = 1e-10;
EstimationTestUtils.checkKalmanFit(context, kalman, measurements, refOrbit, positionAngle, expectedDeltaPos, posEps, expectedDeltaVel, velEps, expectedSigmasPos, sigmaPosEps, expectedSigmasVel, sigmaVelEps);
}
Also used :
Context(org.orekit.estimation.Context)
Orbit(org.orekit.orbits.Orbit)
PositionAngle(org.orekit.orbits.PositionAngle)
RealMatrix(org.hipparchus.linear.RealMatrix)
NumericalPropagator(org.orekit.propagation.numerical.NumericalPropagator)
ParameterDriversList(org.orekit.utils.ParameterDriversList)
NumericalPropagatorBuilder(org.orekit.propagation.conversion.NumericalPropagatorBuilder)
Propagator(org.orekit.propagation.Propagator)
NumericalPropagator(org.orekit.propagation.numerical.NumericalPropagator)
OrbitType(org.orekit.orbits.OrbitType)
ObservedMeasurement(org.orekit.estimation.measurements.ObservedMeasurement)
RangeRateMeasurementCreator(org.orekit.estimation.measurements.RangeRateMeasurementCreator)
Test(org.junit.Test)
Example 7 with RangeRateMeasurementCreator
use of org.orekit.estimation.measurements.RangeRateMeasurementCreator in project Orekit by CS-SI.
the class TropoModifierTest method testRangeRateTropoModifier.
@Test
public void testRangeRateTropoModifier() throws OrekitException {
Context context = EstimationTestUtils.eccentricContext("regular-data:potential:tides");
final NumericalPropagatorBuilder propagatorBuilder = context.createBuilder(OrbitType.KEPLERIAN, PositionAngle.TRUE, true, 1.0e-6, 60.0, 0.001);
// create perfect range measurements
for (final GroundStation station : context.stations) {
station.getEastOffsetDriver().setSelected(true);
station.getNorthOffsetDriver().setSelected(true);
station.getZenithOffsetDriver().setSelected(true);
}
final Propagator propagator = EstimationTestUtils.createPropagator(context.initialOrbit, propagatorBuilder);
final List<ObservedMeasurement<?>> measurements = EstimationTestUtils.createMeasurements(propagator, new RangeRateMeasurementCreator(context, false), 1.0, 3.0, 300.0);
propagator.setSlaveMode();
final RangeRateTroposphericDelayModifier modifier = new RangeRateTroposphericDelayModifier(SaastamoinenModel.getStandardModel(), false);
for (final ObservedMeasurement<?> measurement : measurements) {
final AbsoluteDate date = measurement.getDate();
final SpacecraftState refState = propagator.propagate(date);
RangeRate rangeRate = (RangeRate) measurement;
EstimatedMeasurement<RangeRate> evalNoMod = rangeRate.estimate(0, 0, new SpacecraftState[] { refState });
// add modifier
rangeRate.addModifier(modifier);
//
EstimatedMeasurement<RangeRate> eval = rangeRate.estimate(0, 0, new SpacecraftState[] { refState });
final double diffMetersSec = eval.getEstimatedValue()[0] - evalNoMod.getEstimatedValue()[0];
final double epsilon = 1e-6;
Assert.assertTrue(Precision.compareTo(diffMetersSec, 0.01, epsilon) < 0);
Assert.assertTrue(Precision.compareTo(diffMetersSec, -0.01, epsilon) > 0);
}
}
Also used :
Context(org.orekit.estimation.Context)
GroundStation(org.orekit.estimation.measurements.GroundStation)
AbsoluteDate(org.orekit.time.AbsoluteDate)
SpacecraftState(org.orekit.propagation.SpacecraftState)
RangeRateTroposphericDelayModifier(org.orekit.estimation.measurements.modifiers.RangeRateTroposphericDelayModifier)
NumericalPropagatorBuilder(org.orekit.propagation.conversion.NumericalPropagatorBuilder)
Propagator(org.orekit.propagation.Propagator)
RangeRate(org.orekit.estimation.measurements.RangeRate)
ObservedMeasurement(org.orekit.estimation.measurements.ObservedMeasurement)
RangeRateMeasurementCreator(org.orekit.estimation.measurements.RangeRateMeasurementCreator)
Test(org.junit.Test)
Aggregations
Test (org.junit.Test)7
Context (org.orekit.estimation.Context)7
ObservedMeasurement (org.orekit.estimation.measurements.ObservedMeasurement)7
RangeRateMeasurementCreator (org.orekit.estimation.measurements.RangeRateMeasurementCreator)7
Propagator (org.orekit.propagation.Propagator)7
NumericalPropagatorBuilder (org.orekit.propagation.conversion.NumericalPropagatorBuilder)7
ArrayList (java.util.ArrayList)4
RealMatrix (org.hipparchus.linear.RealMatrix)3
RangeMeasurementCreator (org.orekit.estimation.measurements.RangeMeasurementCreator)3
Orbit (org.orekit.orbits.Orbit)3
OrbitType (org.orekit.orbits.OrbitType)3
PositionAngle (org.orekit.orbits.PositionAngle)3
NumericalPropagator (org.orekit.propagation.numerical.NumericalPropagator)3
ParameterDriversList (org.orekit.utils.ParameterDriversList)3
LevenbergMarquardtOptimizer (org.hipparchus.optim.nonlinear.vector.leastsquares.LevenbergMarquardtOptimizer)2
GroundStation (org.orekit.estimation.measurements.GroundStation)2
RangeRate (org.orekit.estimation.measurements.RangeRate)2
BoundedPropagator (org.orekit.propagation.BoundedPropagator)2
SpacecraftState (org.orekit.propagation.SpacecraftState)2
AbsoluteDate (org.orekit.time.AbsoluteDate)2
