public class Position extends AbstractMeasurement<Position>
For position-velocity measurement see PV
.
PV
Constructor and Description |
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Position(AbsoluteDate date,
Vector3D position,
double[][] covarianceMatrix,
double baseWeight,
ObservableSatellite satellite)
Constructor with full covariance matrix and all inputs.
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Position(AbsoluteDate date,
Vector3D position,
double[] sigmaPosition,
double baseWeight,
ObservableSatellite satellite)
Constructor with one vector for the standard deviation.
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Position(AbsoluteDate date,
Vector3D position,
double sigmaPosition,
double baseWeight,
ObservableSatellite satellite)
Constructor with one double for the standard deviation.
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Modifier and Type | Method and Description |
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double[][] |
getCorrelationCoefficientsMatrix()
Get the correlation coefficients matrix.
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double[][] |
getCovarianceMatrix()
Get the covariance matrix.
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Vector3D |
getPosition()
Get the position.
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protected EstimatedMeasurement<Position> |
theoreticalEvaluation(int iteration,
int evaluation,
SpacecraftState[] states)
Estimate the theoretical value.
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addModifier, addParameterDriver, estimate, getBaseWeight, getCoordinates, getDate, getDimension, getModifiers, getObservedValue, getParametersDrivers, getSatellites, getTheoreticalStandardDeviation, isEnabled, setEnabled, signalTimeOfFlight, signalTimeOfFlight
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
compareTo
public Position(AbsoluteDate date, Vector3D position, double sigmaPosition, double baseWeight, ObservableSatellite satellite)
The double is the position's standard deviation, common to the 3 position's components.
The measurement must be in the orbit propagation frame.
date
- date of the measurementposition
- positionsigmaPosition
- theoretical standard deviation on position componentsbaseWeight
- base weightsatellite
- satellite related to this measurementpublic Position(AbsoluteDate date, Vector3D position, double[] sigmaPosition, double baseWeight, ObservableSatellite satellite)
The 3-sized vector represents the square root of the diagonal elements of the covariance matrix.
The measurement must be in the orbit propagation frame.
date
- date of the measurementposition
- positionsigmaPosition
- 3-sized vector of the standard deviations of the positionbaseWeight
- base weightsatellite
- satellite related to this measurementpublic Position(AbsoluteDate date, Vector3D position, double[][] covarianceMatrix, double baseWeight, ObservableSatellite satellite)
The fact that the covariance matrix is symmetric and positive definite is not checked.
The measurement must be in the orbit propagation frame.
date
- date of the measurementposition
- positioncovarianceMatrix
- 6x6 covariance matrix of the PV measurementbaseWeight
- base weightsatellite
- satellite related to this measurementpublic Vector3D getPosition()
public double[][] getCovarianceMatrix()
public double[][] getCorrelationCoefficientsMatrix()
This is the 3x3 matrix M such that:
Mij = Pij/(σi.σj)
Where:
protected EstimatedMeasurement<Position> theoreticalEvaluation(int iteration, int evaluation, SpacecraftState[] states)
The theoretical value does not have any modifiers applied.
theoreticalEvaluation
in class AbstractMeasurement<Position>
iteration
- iteration numberevaluation
- evaluation numberstates
- orbital states at measurement dateAbstractMeasurement.estimate(int, int, SpacecraftState[])
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