org.orekit.utils

Class TimeStampedPVCoordinatesHermiteInterpolator

java.lang.Object

org.orekit.time.AbstractTimeInterpolator<TimeStampedPVCoordinates>

org.orekit.utils.TimeStampedPVCoordinatesHermiteInterpolator

All Implemented Interfaces:

TimeInterpolator<TimeStampedPVCoordinates>

public class TimeStampedPVCoordinatesHermiteInterpolator
extends AbstractTimeInterpolator<TimeStampedPVCoordinates>

Class using a Hermite interpolator to interpolate time stamped position-velocity-acceleration coordinates.

As this implementation of interpolation is polynomial, it should be used only with small number of interpolation points (about 10-20 points) in order to avoid Runge's phenomenon and numerical problems (including NaN appearing).

Author:

Luc Maisonobe, Vincent Cucchietti

See Also:

HermiteInterpolator, TimeStampedPVCoordinates

Nested Class Summary

Nested classes/interfaces inherited from class org.orekit.time.AbstractTimeInterpolator

AbstractTimeInterpolator.InterpolationData

Field Summary

Fields inherited from class org.orekit.time.AbstractTimeInterpolator

DEFAULT_EXTRAPOLATION_THRESHOLD_SEC, DEFAULT_INTERPOLATION_POINTS

Constructor Summary

Constructors

Constructor and Description
TimeStampedPVCoordinatesHermiteInterpolator() Constructor with : Default number of interpolation points of DEFAULT_INTERPOLATION_POINTS Default extrapolation threshold value (DEFAULT_EXTRAPOLATION_THRESHOLD_SEC s) Use of position and both time derivatives for attitude interpolation As this implementation of interpolation is polynomial, it should be used only with small number of interpolation points (about 10-20 points) in order to avoid Runge's phenomenon and numerical problems (including NaN appearing).
TimeStampedPVCoordinatesHermiteInterpolator(int interpolationPoints) Constructor with : Default extrapolation threshold value (DEFAULT_EXTRAPOLATION_THRESHOLD_SEC s) Use of position and both time derivatives for attitude interpolation As this implementation of interpolation is polynomial, it should be used only with small number of interpolation points (about 10-20 points) in order to avoid Runge's phenomenon and numerical problems (including NaN appearing).
TimeStampedPVCoordinatesHermiteInterpolator(int interpolationPoints, CartesianDerivativesFilter filter) Constructor with : Default extrapolation threshold value (DEFAULT_EXTRAPOLATION_THRESHOLD_SEC s) As this implementation of interpolation is polynomial, it should be used only with small number of interpolation points (about 10-20 points) in order to avoid Runge's phenomenon and numerical problems (including NaN appearing).
TimeStampedPVCoordinatesHermiteInterpolator(int interpolationPoints, double extrapolationThreshold, CartesianDerivativesFilter filter) Constructor.

Method Summary

Modifier and Type	Method and Description
CartesianDerivativesFilter	getFilter() Get filter for derivatives from the sample to use in interpolation.
protected TimeStampedPVCoordinates	interpolate(AbstractTimeInterpolator.InterpolationData interpolationData) Interpolate instance from given interpolation data.

Methods inherited from class org.orekit.time.AbstractTimeInterpolator

addOptionalSubInterpolatorIfDefined, checkInterpolatorCompatibilityWithSampleSize, getCentralDate, getExtrapolationThreshold, getNbInterpolationPoints, getSubInterpolators, getTimeParameter, interpolate, interpolate

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Constructor Detail

TimeStampedPVCoordinatesHermiteInterpolator

public TimeStampedPVCoordinatesHermiteInterpolator()

Constructor with :

• Default number of interpolation points of DEFAULT_INTERPOLATION_POINTS
• Default extrapolation threshold value (DEFAULT_EXTRAPOLATION_THRESHOLD_SEC s)
• Use of position and both time derivatives for attitude interpolation

As this implementation of interpolation is polynomial, it should be used only with small number of interpolation points (about 10-20 points) in order to avoid Runge's phenomenon and numerical problems (including NaN appearing).

TimeStampedPVCoordinatesHermiteInterpolator

public TimeStampedPVCoordinatesHermiteInterpolator(int interpolationPoints)

Constructor with :

• Default extrapolation threshold value (DEFAULT_EXTRAPOLATION_THRESHOLD_SEC s)
• Use of position and both time derivatives for attitude interpolation

As this implementation of interpolation is polynomial, it should be used only with small number of interpolation points (about 10-20 points) in order to avoid Runge's phenomenon and numerical problems (including NaN appearing).

Parameters:

interpolationPoints - number of interpolation points

TimeStampedPVCoordinatesHermiteInterpolator

public TimeStampedPVCoordinatesHermiteInterpolator(int interpolationPoints,
                                                   CartesianDerivativesFilter filter)

Constructor with :

• Default extrapolation threshold value (DEFAULT_EXTRAPOLATION_THRESHOLD_SEC s)

As this implementation of interpolation is polynomial, it should be used only with small number of interpolation points (about 10-20 points) in order to avoid Runge's phenomenon and numerical problems (including NaN appearing).

Parameters:

interpolationPoints - number of interpolation points

filter - filter for derivatives from the sample to use in interpolation

TimeStampedPVCoordinatesHermiteInterpolator

public TimeStampedPVCoordinatesHermiteInterpolator(int interpolationPoints,
                                                   double extrapolationThreshold,
                                                   CartesianDerivativesFilter filter)

Constructor.

As this implementation of interpolation is polynomial, it should be used only with small number of interpolation points (about 10-20 points) in order to avoid Runge's phenomenon and numerical problems (including NaN appearing).

Parameters:

interpolationPoints - number of interpolation points

extrapolationThreshold - extrapolation threshold beyond which the propagation will fail

filter - filter for derivatives from the sample to use in interpolation

Method Detail

getFilter

public CartesianDerivativesFilter getFilter()

Get filter for derivatives from the sample to use in interpolation.

Returns:

filter for derivatives from the sample to use in interpolation

interpolate

protected TimeStampedPVCoordinates interpolate(AbstractTimeInterpolator.InterpolationData interpolationData)

Interpolate instance from given interpolation data.

The interpolated instance is created by polynomial Hermite interpolation ensuring velocity remains the exact derivative of position.

Note that even if first time derivatives (velocities) from sample can be ignored, the interpolated instance always includes interpolated derivatives. This feature can be used explicitly to compute these derivatives when it would be too complex to compute them from an analytical formula: just compute a few sample points from the explicit formula and set the derivatives to zero in these sample points, then use interpolation to add derivatives consistent with the positions.

Specified by:

interpolate in class AbstractTimeInterpolator<TimeStampedPVCoordinates>

Parameters:

interpolationData - interpolation data

Returns:

interpolated instance from given interpolation data.