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Example 16 with MarshallSolarActivityFutureEstimation

use of org.orekit.forces.drag.atmosphere.data.MarshallSolarActivityFutureEstimation in project Orekit by CS-SI.

the class MarshallSolarActivityFutureEstimationTest method testMaxDate.

@Test
public void testMaxDate() throws OrekitException {
    MarshallSolarActivityFutureEstimation msafe = loadMsafe(MarshallSolarActivityFutureEstimation.StrengthLevel.WEAK);
    Assert.assertEquals(new AbsoluteDate("2030-10-01", utc), msafe.getMaxDate());
    Assert.assertEquals(67.0, msafe.getMeanFlux(msafe.getMaxDate()), 1.0e-14);
}
Also used : MarshallSolarActivityFutureEstimation(org.orekit.forces.drag.atmosphere.data.MarshallSolarActivityFutureEstimation) AbsoluteDate(org.orekit.time.AbsoluteDate) Test(org.junit.Test)

Example 17 with MarshallSolarActivityFutureEstimation

use of org.orekit.forces.drag.atmosphere.data.MarshallSolarActivityFutureEstimation in project Orekit by CS-SI.

the class MarshallSolarActivityFutureEstimationTest method testPastOutOfRange.

@Test(expected = OrekitException.class)
public void testPastOutOfRange() throws OrekitException {
    MarshallSolarActivityFutureEstimation msafe = loadMsafe(MarshallSolarActivityFutureEstimation.StrengthLevel.WEAK);
    msafe.get24HoursKp(new AbsoluteDate("1960-10-01", utc));
}
Also used : MarshallSolarActivityFutureEstimation(org.orekit.forces.drag.atmosphere.data.MarshallSolarActivityFutureEstimation) AbsoluteDate(org.orekit.time.AbsoluteDate) Test(org.junit.Test)

Example 18 with MarshallSolarActivityFutureEstimation

use of org.orekit.forces.drag.atmosphere.data.MarshallSolarActivityFutureEstimation in project Orekit by CS-SI.

the class MarshallSolarActivityFutureEstimationTest method testFileDate.

@Test
public void testFileDate() throws OrekitException {
    MarshallSolarActivityFutureEstimation msafe = loadMsafe(MarshallSolarActivityFutureEstimation.StrengthLevel.AVERAGE);
    Assert.assertEquals(new DateComponents(2010, Month.NOVEMBER, 1), msafe.getFileDate(new AbsoluteDate("2010-05-01", utc)));
    Assert.assertEquals(new DateComponents(2010, Month.DECEMBER, 1), msafe.getFileDate(new AbsoluteDate("2010-06-01", utc)));
    Assert.assertEquals(new DateComponents(2011, Month.JANUARY, 1), msafe.getFileDate(new AbsoluteDate("2010-07-01", utc)));
    Assert.assertEquals(new DateComponents(2011, Month.JANUARY, 1), msafe.getFileDate(new AbsoluteDate("2030-01-01", utc)));
}
Also used : MarshallSolarActivityFutureEstimation(org.orekit.forces.drag.atmosphere.data.MarshallSolarActivityFutureEstimation) DateComponents(org.orekit.time.DateComponents) AbsoluteDate(org.orekit.time.AbsoluteDate) Test(org.junit.Test)

Example 19 with MarshallSolarActivityFutureEstimation

use of org.orekit.forces.drag.atmosphere.data.MarshallSolarActivityFutureEstimation in project Orekit by CS-SI.

the class NumericalPropagatorTest method createPropagator.

private static synchronized NumericalPropagator createPropagator(SpacecraftState spacecraftState, OrbitType orbitType, PositionAngle angleType) throws OrekitException {
    final double minStep = 0.001;
    final double maxStep = 120.0;
    final double positionTolerance = 0.1;
    final int degree = 20;
    final int order = 20;
    final double spacecraftArea = 1.0;
    final double spacecraftDragCoefficient = 2.0;
    final double spacecraftReflectionCoefficient = 2.0;
    // propagator main configuration
    final double[][] tol = NumericalPropagator.tolerances(positionTolerance, spacecraftState.getOrbit(), orbitType);
    final ODEIntegrator integrator = new DormandPrince853Integrator(minStep, maxStep, tol[0], tol[1]);
    final NumericalPropagator np = new NumericalPropagator(integrator);
    np.setOrbitType(orbitType);
    np.setPositionAngleType(angleType);
    np.setInitialState(spacecraftState);
    // Earth gravity field
    final OneAxisEllipsoid earth = new OneAxisEllipsoid(Constants.WGS84_EARTH_EQUATORIAL_RADIUS, Constants.WGS84_EARTH_FLATTENING, FramesFactory.getITRF(IERSConventions.IERS_2010, true));
    final NormalizedSphericalHarmonicsProvider harmonicsGravityProvider = GravityFieldFactory.getNormalizedProvider(degree, order);
    np.addForceModel(new HolmesFeatherstoneAttractionModel(earth.getBodyFrame(), harmonicsGravityProvider));
    // Sun and Moon attraction
    np.addForceModel(new ThirdBodyAttraction(CelestialBodyFactory.getSun()));
    np.addForceModel(new ThirdBodyAttraction(CelestialBodyFactory.getMoon()));
    // atmospheric drag
    MarshallSolarActivityFutureEstimation msafe = new MarshallSolarActivityFutureEstimation("Jan2000F10-edited-data\\.txt", MarshallSolarActivityFutureEstimation.StrengthLevel.AVERAGE);
    DataProvidersManager.getInstance().feed(msafe.getSupportedNames(), msafe);
    DTM2000 atmosphere = new DTM2000(msafe, CelestialBodyFactory.getSun(), earth);
    np.addForceModel(new DragForce(atmosphere, new IsotropicDrag(spacecraftArea, spacecraftDragCoefficient)));
    // solar radiation pressure
    np.addForceModel(new SolarRadiationPressure(CelestialBodyFactory.getSun(), earth.getEquatorialRadius(), new IsotropicRadiationSingleCoefficient(spacecraftArea, spacecraftReflectionCoefficient)));
    return np;
}
Also used : OneAxisEllipsoid(org.orekit.bodies.OneAxisEllipsoid) IsotropicDrag(org.orekit.forces.drag.IsotropicDrag) DTM2000(org.orekit.forces.drag.atmosphere.DTM2000) SolarRadiationPressure(org.orekit.forces.radiation.SolarRadiationPressure) MarshallSolarActivityFutureEstimation(org.orekit.forces.drag.atmosphere.data.MarshallSolarActivityFutureEstimation) ThirdBodyAttraction(org.orekit.forces.gravity.ThirdBodyAttraction) ODEIntegrator(org.hipparchus.ode.ODEIntegrator) DragForce(org.orekit.forces.drag.DragForce) DormandPrince853Integrator(org.hipparchus.ode.nonstiff.DormandPrince853Integrator) NormalizedSphericalHarmonicsProvider(org.orekit.forces.gravity.potential.NormalizedSphericalHarmonicsProvider) HolmesFeatherstoneAttractionModel(org.orekit.forces.gravity.HolmesFeatherstoneAttractionModel) IsotropicRadiationSingleCoefficient(org.orekit.forces.radiation.IsotropicRadiationSingleCoefficient)

Example 20 with MarshallSolarActivityFutureEstimation

use of org.orekit.forces.drag.atmosphere.data.MarshallSolarActivityFutureEstimation in project Orekit by CS-SI.

the class OrbitDetermination method createPropagatorBuilder.

/**
 * Create a propagator builder from input parameters
 * @param parser input file parser
 * @param conventions IERS conventions to use
 * @param gravityField gravity field
 * @param body central body
 * @param orbit first orbit estimate
 * @return propagator builder
 * @throws NoSuchElementException if input parameters are missing
 * @throws OrekitException if body frame cannot be created
 */
private NumericalPropagatorBuilder createPropagatorBuilder(final KeyValueFileParser<ParameterKey> parser, final IERSConventions conventions, final NormalizedSphericalHarmonicsProvider gravityField, final OneAxisEllipsoid body, final Orbit orbit) throws NoSuchElementException, OrekitException {
    final double minStep;
    if (!parser.containsKey(ParameterKey.PROPAGATOR_MIN_STEP)) {
        minStep = 0.001;
    } else {
        minStep = parser.getDouble(ParameterKey.PROPAGATOR_MIN_STEP);
    }
    final double maxStep;
    if (!parser.containsKey(ParameterKey.PROPAGATOR_MAX_STEP)) {
        maxStep = 300;
    } else {
        maxStep = parser.getDouble(ParameterKey.PROPAGATOR_MAX_STEP);
    }
    final double dP;
    if (!parser.containsKey(ParameterKey.PROPAGATOR_POSITION_ERROR)) {
        dP = 10.0;
    } else {
        dP = parser.getDouble(ParameterKey.PROPAGATOR_POSITION_ERROR);
    }
    final double positionScale;
    if (!parser.containsKey(ParameterKey.ESTIMATOR_ORBITAL_PARAMETERS_POSITION_SCALE)) {
        positionScale = dP;
    } else {
        positionScale = parser.getDouble(ParameterKey.ESTIMATOR_ORBITAL_PARAMETERS_POSITION_SCALE);
    }
    final NumericalPropagatorBuilder propagatorBuilder = new NumericalPropagatorBuilder(orbit, new DormandPrince853IntegratorBuilder(minStep, maxStep, dP), PositionAngle.MEAN, positionScale);
    // initial mass
    final double mass;
    if (!parser.containsKey(ParameterKey.MASS)) {
        mass = 1000.0;
    } else {
        mass = parser.getDouble(ParameterKey.MASS);
    }
    propagatorBuilder.setMass(mass);
    // gravity field force model
    propagatorBuilder.addForceModel(new HolmesFeatherstoneAttractionModel(body.getBodyFrame(), gravityField));
    // ocean tides force model
    if (parser.containsKey(ParameterKey.OCEAN_TIDES_DEGREE) && parser.containsKey(ParameterKey.OCEAN_TIDES_ORDER)) {
        final int degree = parser.getInt(ParameterKey.OCEAN_TIDES_DEGREE);
        final int order = parser.getInt(ParameterKey.OCEAN_TIDES_ORDER);
        if (degree > 0 && order > 0) {
            propagatorBuilder.addForceModel(new OceanTides(body.getBodyFrame(), gravityField.getAe(), gravityField.getMu(), degree, order, conventions, TimeScalesFactory.getUT1(conventions, true)));
        }
    }
    // solid tides force model
    List<CelestialBody> solidTidesBodies = new ArrayList<CelestialBody>();
    if (parser.containsKey(ParameterKey.SOLID_TIDES_SUN) && parser.getBoolean(ParameterKey.SOLID_TIDES_SUN)) {
        solidTidesBodies.add(CelestialBodyFactory.getSun());
    }
    if (parser.containsKey(ParameterKey.SOLID_TIDES_MOON) && parser.getBoolean(ParameterKey.SOLID_TIDES_MOON)) {
        solidTidesBodies.add(CelestialBodyFactory.getMoon());
    }
    if (!solidTidesBodies.isEmpty()) {
        propagatorBuilder.addForceModel(new SolidTides(body.getBodyFrame(), gravityField.getAe(), gravityField.getMu(), gravityField.getTideSystem(), conventions, TimeScalesFactory.getUT1(conventions, true), solidTidesBodies.toArray(new CelestialBody[solidTidesBodies.size()])));
    }
    // third body attraction
    if (parser.containsKey(ParameterKey.THIRD_BODY_SUN) && parser.getBoolean(ParameterKey.THIRD_BODY_SUN)) {
        propagatorBuilder.addForceModel(new ThirdBodyAttraction(CelestialBodyFactory.getSun()));
    }
    if (parser.containsKey(ParameterKey.THIRD_BODY_MOON) && parser.getBoolean(ParameterKey.THIRD_BODY_MOON)) {
        propagatorBuilder.addForceModel(new ThirdBodyAttraction(CelestialBodyFactory.getMoon()));
    }
    // drag
    if (parser.containsKey(ParameterKey.DRAG) && parser.getBoolean(ParameterKey.DRAG)) {
        final double cd = parser.getDouble(ParameterKey.DRAG_CD);
        final double area = parser.getDouble(ParameterKey.DRAG_AREA);
        final boolean cdEstimated = parser.getBoolean(ParameterKey.DRAG_CD_ESTIMATED);
        MarshallSolarActivityFutureEstimation msafe = new MarshallSolarActivityFutureEstimation("(?:Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec)\\p{Digit}\\p{Digit}\\p{Digit}\\p{Digit}F10\\.(?:txt|TXT)", MarshallSolarActivityFutureEstimation.StrengthLevel.AVERAGE);
        DataProvidersManager manager = DataProvidersManager.getInstance();
        manager.feed(msafe.getSupportedNames(), msafe);
        Atmosphere atmosphere = new DTM2000(msafe, CelestialBodyFactory.getSun(), body);
        propagatorBuilder.addForceModel(new DragForce(atmosphere, new IsotropicDrag(area, cd)));
        if (cdEstimated) {
            for (final ParameterDriver driver : propagatorBuilder.getPropagationParametersDrivers().getDrivers()) {
                if (driver.getName().equals(DragSensitive.DRAG_COEFFICIENT)) {
                    driver.setSelected(true);
                }
            }
        }
    }
    // solar radiation pressure
    if (parser.containsKey(ParameterKey.SOLAR_RADIATION_PRESSURE) && parser.getBoolean(ParameterKey.SOLAR_RADIATION_PRESSURE)) {
        final double cr = parser.getDouble(ParameterKey.SOLAR_RADIATION_PRESSURE_CR);
        final double area = parser.getDouble(ParameterKey.SOLAR_RADIATION_PRESSURE_AREA);
        final boolean cREstimated = parser.getBoolean(ParameterKey.SOLAR_RADIATION_PRESSURE_CR_ESTIMATED);
        propagatorBuilder.addForceModel(new SolarRadiationPressure(CelestialBodyFactory.getSun(), body.getEquatorialRadius(), new IsotropicRadiationSingleCoefficient(area, cr)));
        if (cREstimated) {
            for (final ParameterDriver driver : propagatorBuilder.getPropagationParametersDrivers().getDrivers()) {
                if (driver.getName().equals(RadiationSensitive.REFLECTION_COEFFICIENT)) {
                    driver.setSelected(true);
                }
            }
        }
    }
    // post-Newtonian correction force due to general relativity
    if (parser.containsKey(ParameterKey.GENERAL_RELATIVITY) && parser.getBoolean(ParameterKey.GENERAL_RELATIVITY)) {
        propagatorBuilder.addForceModel(new Relativity(gravityField.getMu()));
    }
    // extra polynomial accelerations
    if (parser.containsKey(ParameterKey.POLYNOMIAL_ACCELERATION_NAME)) {
        final String[] names = parser.getStringArray(ParameterKey.POLYNOMIAL_ACCELERATION_NAME);
        final Vector3D[] directions = parser.getVectorArray(ParameterKey.POLYNOMIAL_ACCELERATION_DIRECTION_X, ParameterKey.POLYNOMIAL_ACCELERATION_DIRECTION_Y, ParameterKey.POLYNOMIAL_ACCELERATION_DIRECTION_Z);
        final List<String>[] coefficients = parser.getStringsListArray(ParameterKey.POLYNOMIAL_ACCELERATION_COEFFICIENTS, ',');
        final boolean[] estimated = parser.getBooleanArray(ParameterKey.POLYNOMIAL_ACCELERATION_ESTIMATED);
        for (int i = 0; i < names.length; ++i) {
            final PolynomialParametricAcceleration ppa = new PolynomialParametricAcceleration(directions[i], true, names[i], null, coefficients[i].size() - 1);
            for (int k = 0; k < coefficients[i].size(); ++k) {
                final ParameterDriver driver = ppa.getParameterDriver(names[i] + "[" + k + "]");
                driver.setValue(Double.parseDouble(coefficients[i].get(k)));
                driver.setSelected(estimated[i]);
            }
            propagatorBuilder.addForceModel(ppa);
        }
    }
    return propagatorBuilder;
}
Also used : IsotropicDrag(org.orekit.forces.drag.IsotropicDrag) PolynomialParametricAcceleration(org.orekit.forces.PolynomialParametricAcceleration) OceanTides(org.orekit.forces.gravity.OceanTides) Relativity(org.orekit.forces.gravity.Relativity) ArrayList(java.util.ArrayList) SolarRadiationPressure(org.orekit.forces.radiation.SolarRadiationPressure) Vector3D(org.hipparchus.geometry.euclidean.threed.Vector3D) CelestialBody(org.orekit.bodies.CelestialBody) ParameterDriversList(org.orekit.utils.ParameterDriversList) List(java.util.List) ArrayList(java.util.ArrayList) IsotropicRadiationSingleCoefficient(org.orekit.forces.radiation.IsotropicRadiationSingleCoefficient) DTM2000(org.orekit.forces.drag.atmosphere.DTM2000) SolidTides(org.orekit.forces.gravity.SolidTides) ParameterDriver(org.orekit.utils.ParameterDriver) GeodeticPoint(org.orekit.bodies.GeodeticPoint) MarshallSolarActivityFutureEstimation(org.orekit.forces.drag.atmosphere.data.MarshallSolarActivityFutureEstimation) ThirdBodyAttraction(org.orekit.forces.gravity.ThirdBodyAttraction) NumericalPropagatorBuilder(org.orekit.propagation.conversion.NumericalPropagatorBuilder) Atmosphere(org.orekit.forces.drag.atmosphere.Atmosphere) DragForce(org.orekit.forces.drag.DragForce) DormandPrince853IntegratorBuilder(org.orekit.propagation.conversion.DormandPrince853IntegratorBuilder) DataProvidersManager(org.orekit.data.DataProvidersManager) HolmesFeatherstoneAttractionModel(org.orekit.forces.gravity.HolmesFeatherstoneAttractionModel)

Aggregations

MarshallSolarActivityFutureEstimation (org.orekit.forces.drag.atmosphere.data.MarshallSolarActivityFutureEstimation)20 Test (org.junit.Test)13 AbsoluteDate (org.orekit.time.AbsoluteDate)11 DataProvidersManager (org.orekit.data.DataProvidersManager)6 DragForce (org.orekit.forces.drag.DragForce)5 IsotropicDrag (org.orekit.forces.drag.IsotropicDrag)5 DTM2000 (org.orekit.forces.drag.atmosphere.DTM2000)5 HolmesFeatherstoneAttractionModel (org.orekit.forces.gravity.HolmesFeatherstoneAttractionModel)5 ThirdBodyAttraction (org.orekit.forces.gravity.ThirdBodyAttraction)5 IsotropicRadiationSingleCoefficient (org.orekit.forces.radiation.IsotropicRadiationSingleCoefficient)5 SolarRadiationPressure (org.orekit.forces.radiation.SolarRadiationPressure)5 ArrayList (java.util.ArrayList)3 List (java.util.List)3 Vector3D (org.hipparchus.geometry.euclidean.threed.Vector3D)3 CelestialBody (org.orekit.bodies.CelestialBody)3 GeodeticPoint (org.orekit.bodies.GeodeticPoint)3 PolynomialParametricAcceleration (org.orekit.forces.PolynomialParametricAcceleration)3 Atmosphere (org.orekit.forces.drag.atmosphere.Atmosphere)3 OceanTides (org.orekit.forces.gravity.OceanTides)3 Relativity (org.orekit.forces.gravity.Relativity)3