SolarRadiationPressureEllipsoid (patrius 4.0 API)

java.lang.Object
- fr.cnes.sirius.patrius.math.parameter.Parameterizable
- - fr.cnes.sirius.patrius.math.parameter.JacobiansParameterizable
  - - fr.cnes.sirius.patrius.forces.radiation.SolarRadiationPressureEllipsoid

All Implemented Interfaces:

ForceModel, GradientModel, IJacobiansParameterizable, IParameterizable, Serializable
```
public class SolarRadiationPressureEllipsoid
extends JacobiansParameterizable
implements ForceModel, GradientModel
```
Solar radiation pressure force model with spheroids. Based on the Orekit implementation of SolarRadiationPressureCircular for a spherical Earth.
The implementation of this class enables the computation of partial derivatives with respect to absorption, specular reflection or diffusion reflection coefficients.

Since:

1.2

Version:

$Id: PatriusSolarRadiationPressure.java 18114 2017-10-04 09:32:13Z bignon $

Author:

Rami Houdroge

See Also:
Serialized Form
Concurrency :

not thread-safe

Concurrency comment :

fields use Frames

Field Summary

Fields
Modifier and Type Field and Description

static String REFERENCE_FLUX
Normalized reference flux.

Fields
Modifier and Type	Field and Description
`static String`	`REFERENCE_FLUX` Normalized reference flux.

Constructor Summary

Constructors
Constructor and Description
`SolarRadiationPressureEllipsoid(double dRef, double pRef, PVCoordinatesProvider sunBody, GeometricBodyShape shape, RadiationSensitive spacecraftModel)` Complete constructor.
`SolarRadiationPressureEllipsoid(double dRef, double pRef, PVCoordinatesProvider sunBody, GeometricBodyShape shape, RadiationSensitive spacecraftModel, boolean computePD)` Complete constructor.
`SolarRadiationPressureEllipsoid(Parameter referenceFlux, PVCoordinatesProvider sunBody, GeometricBodyShape shape, RadiationSensitive spacecraftModel)` Complete constructor using `Parameter`.
`SolarRadiationPressureEllipsoid(Parameter referenceFlux, PVCoordinatesProvider sunBody, GeometricBodyShape shape, RadiationSensitive spacecraftModel, boolean computePD)` Complete constructor using `Parameter`.
`SolarRadiationPressureEllipsoid(PVCoordinatesProvider sunBody, GeometricBodyShape shape, RadiationSensitive spacecraftModel)` Simple constructor with default reference values.
`SolarRadiationPressureEllipsoid(PVCoordinatesProvider sunBody, GeometricBodyShape shape, RadiationSensitive spacecraftModel, boolean computePD)` Simple constructor with default reference values.

Method Summary

Methods
Modifier and Type	Method and Description
`void`	`addContribution(SpacecraftState s, TimeDerivativesEquations adder)` Compute the contribution of the force model to the perturbing acceleration.
`void`	`addDAccDParam(SpacecraftState s, Parameter param, double[] dAccdParam)` Compute acceleration derivatives with respect to additional parameters.
`void`	`addDAccDState(SpacecraftState s, double[][] dAccdPos, double[][] dAccdVel)` Compute acceleration derivatives with respect to state parameters.
`Vector3D`	`computeAcceleration(SpacecraftState s)` Compute the acceleration due to the force.
`boolean`	`computeGradientPosition()` This method returns true if the acceleration partial derivatives with respect to position have to be computed.
`boolean`	`computeGradientVelocity()` This method returns true if the acceleration partial derivatives with respect to velocity have to be computed.
`EventDetector[]`	`getEventsDetectors()` Get the discrete events related to the model.
`static double`	`getLightningRatio(PVCoordinatesProvider sun, Vector3D satSunVector, GeometricBodyShape earthModel, Vector3D position, Frame frame, AbsoluteDate date)` Get the lightning ratio ([0-1]).
`Vector3D`	`getSolarFlux(SpacecraftState s)` Compute solar flux.

Methods inherited from class fr.cnes.sirius.patrius.math.parameter.JacobiansParameterizable
addJacobiansParameter, addJacobiansParameter, addJacobiansParameter, supportsJacobianParameter

Methods inherited from class fr.cnes.sirius.patrius.math.parameter.Parameterizable
addParameter, getParameters, supportsParameter

Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Methods inherited from interface fr.cnes.sirius.patrius.math.parameter.IParameterizable
getParameters, supportsParameter

- Field Detail
  - REFERENCE_FLUX
```
public static final String REFERENCE_FLUX
```
    Normalized reference flux.
    
    See Also:
    Constant Field Values
- Constructor Detail
  - SolarRadiationPressureEllipsoid
```
public SolarRadiationPressureEllipsoid(PVCoordinatesProvider sunBody,
                               GeometricBodyShape shape,
                               RadiationSensitive spacecraftModel)
```
    Simple constructor with default reference values.
    When this constructor is used, the reference values are:
    - d_ref = 149597870000.0 m
    - p_ref = 4.56 10^-6 N/m²
    Parameters:
    sunBody - Sun model
    shape - Earth model (for umbra/penumbra computation)
    spacecraftModel - the object physical and geometrical information
  - SolarRadiationPressureEllipsoid
```
public SolarRadiationPressureEllipsoid(PVCoordinatesProvider sunBody,
                               GeometricBodyShape shape,
                               RadiationSensitive spacecraftModel,
                               boolean computePD)
```
    Simple constructor with default reference values.
    When this constructor is used, the reference values are:
    - d_ref = 149597870000.0 m
    - p_ref = 4.56 10^-6 N/m²
    Parameters:
    sunBody - Sun model
    shape - Earth model (for umbra/penumbra computation)
    spacecraftModel - the object physical and geometrical information
    computePD - true if partial derivatives wrt position have to be computed
  - SolarRadiationPressureEllipsoid
```
public SolarRadiationPressureEllipsoid(double dRef,
                               double pRef,
                               PVCoordinatesProvider sunBody,
                               GeometricBodyShape shape,
                               RadiationSensitive spacecraftModel)
```
    Complete constructor.
    Note that reference solar radiation pressure pRef in N/m² is linked to solar flux SF in W/m² using formula pRef = SF/c where c is the speed of light (299792458 m/s). So at 1UA a 1367 W/m² solar flux is a 4.56 10^-6 N/m² solar radiation pressure.
    
    Parameters:
    dRef - reference distance for the solar radiation pressure (m)
    pRef - reference solar radiation pressure at dRef (N/m²)
    sunBody - Sun model
    shape - Earth model (for umbra/penumbra computation)
    spacecraftModel - the object physical and geometrical information
  - SolarRadiationPressureEllipsoid
```
public SolarRadiationPressureEllipsoid(double dRef,
                               double pRef,
                               PVCoordinatesProvider sunBody,
                               GeometricBodyShape shape,
                               RadiationSensitive spacecraftModel,
                               boolean computePD)
```
    Complete constructor.
    Note that reference solar radiation pressure pRef in N/m² is linked to solar flux SF in W/m² using formula pRef = SF/c where c is the speed of light (299792458 m/s). So at 1UA a 1367 W/m² solar flux is a 4.56 10^-6 N/m² solar radiation pressure.
    
    Parameters:
    dRef - reference distance for the solar radiation pressure (m)
    pRef - reference solar radiation pressure at dRef (N/m²)
    sunBody - Sun model
    shape - Earth model (for umbra/penumbra computation)
    spacecraftModel - the object physical and geometrical information
    computePD - true if partial derivatives wrt position have to be computed
  - SolarRadiationPressureEllipsoid
```
public SolarRadiationPressureEllipsoid(Parameter referenceFlux,
                               PVCoordinatesProvider sunBody,
                               GeometricBodyShape shape,
                               RadiationSensitive spacecraftModel)
```
    Complete constructor using Parameter.
    
    Parameters:
    referenceFlux - the parameter representing the normalized reference flux
    sunBody - Sun model
    shape - Earth model (for umbra/penumbra computation)
    spacecraftModel - the object physical and geometrical information
  - SolarRadiationPressureEllipsoid
```
public SolarRadiationPressureEllipsoid(Parameter referenceFlux,
                               PVCoordinatesProvider sunBody,
                               GeometricBodyShape shape,
                               RadiationSensitive spacecraftModel,
                               boolean computePD)
```
    Complete constructor using Parameter.
    
    Parameters:
    referenceFlux - the parameter representing the normalized reference flux
    sunBody - Sun model
    shape - Earth model (for umbra/penumbra computation)
    spacecraftModel - the object physical and geometrical information
    computePD - true if partial derivatives wrt position have to be computed
- Method Detail
  - getSolarFlux
```
public Vector3D getSolarFlux(SpacecraftState s)
                      throws PatriusException
```
    Compute solar flux.
    
    Parameters:
    s - spacecraft state
    
    Returns:
    coefficient for acceleration computation
    
    Throws:
    
    PatriusException - thrown if Sun position cannot be retrieved
  - computeAcceleration
```
public Vector3D computeAcceleration(SpacecraftState s)
                             throws PatriusException
```
    Description copied from interface: ForceModel
    
    Compute the acceleration due to the force.
    
    Specified by:
    
    computeAcceleration in interface ForceModel
    
    Parameters:
    s - current state information: date, kinematics, attitude
    
    Returns:
    acceleration in the SpacecraftState frame
    
    Throws:
    
    PatriusException - if some specific error occurs
  - addContribution
```
public void addContribution(SpacecraftState s,
                   TimeDerivativesEquations adder)
                     throws PatriusException
```
    Description copied from interface: ForceModel
    
    Compute the contribution of the force model to the perturbing acceleration.
    
    Specified by:
    
    addContribution in interface ForceModel
    
    Parameters:
    s - current state information: date, kinematics, attitude
    adder - object where the contribution should be added
    
    Throws:
    
    PatriusException - if some specific error occurs
  - getLightningRatio
```
public static double getLightningRatio(PVCoordinatesProvider sun,
                       Vector3D satSunVector,
                       GeometricBodyShape earthModel,
                       Vector3D position,
                       Frame frame,
                       AbsoluteDate date)
                                throws PatriusException
```
    Get the lightning ratio ([0-1]).
    
    Parameters:
    sun - PV provider for the sun
    satSunVector - Satellite-Sun vector
    earthModel - earth body shape
    position - the satellite's position in the selected frame.
    frame - in which is defined the position
    date - the date
    
    Returns:
    lightning ratio
    
    Throws:
    
    PatriusException - if an error occurs
  - getEventsDetectors
```
public EventDetector[] getEventsDetectors()
```
    Get the discrete events related to the model.
    
    Specified by:
    
    getEventsDetectors in interface ForceModel
    
    Returns:
    array of events detectors or null if the model is not related to any discrete events
  - addDAccDState
```
public void addDAccDState(SpacecraftState s,
                 double[][] dAccdPos,
                 double[][] dAccdVel)
                   throws PatriusException
```
    Description copied from interface: IJacobiansParameterizable
    
    Compute acceleration derivatives with respect to state parameters.
    
    Specified by:
    
    addDAccDState in interface IJacobiansParameterizable
    
    Parameters:
    s - spacecraft state
    dAccdPos - acceleration derivatives with respect to position
    dAccdVel - acceleration derivatives with respect to velocity
    
    Throws:
    
    PatriusException - if derivatives cannot be computed
  - addDAccDParam
```
public void addDAccDParam(SpacecraftState s,
                 Parameter param,
                 double[] dAccdParam)
                   throws PatriusException
```
    Description copied from interface: IJacobiansParameterizable
    
    Compute acceleration derivatives with respect to additional parameters.
    
    Specified by:
    
    addDAccDParam in interface IJacobiansParameterizable
    
    Parameters:
    s - spacecraft state
    param - the parameter with respect to which derivatives are required
    dAccdParam - acceleration derivatives with respect to specified parameters
    
    Throws:
    
    PatriusException - if derivatives cannot be computed
  - computeGradientPosition
```
public boolean computeGradientPosition()
```
    This method returns true if the acceleration partial derivatives with respect to position have to be computed.
    
    Specified by:
    
    computeGradientPosition in interface GradientModel
    
    Returns:
    true if the derivatives have to be computed, false otherwise
  - computeGradientVelocity
```
public boolean computeGradientVelocity()
```
    This method returns true if the acceleration partial derivatives with respect to velocity have to be computed.
    
    Specified by:
    
    computeGradientVelocity in interface GradientModel
    
    Returns:
    true if the derivatives have to be computed, false otherwise

Class SolarRadiationPressureEllipsoid

Field Summary

Constructor Summary

Method Summary

Methods inherited from class fr.cnes.sirius.patrius.math.parameter.JacobiansParameterizable

Methods inherited from class fr.cnes.sirius.patrius.math.parameter.Parameterizable

Methods inherited from class java.lang.Object

Methods inherited from interface fr.cnes.sirius.patrius.math.parameter.IParameterizable

Field Detail

REFERENCE_FLUX

Constructor Detail

SolarRadiationPressureEllipsoid

SolarRadiationPressureEllipsoid

SolarRadiationPressureEllipsoid

SolarRadiationPressureEllipsoid

SolarRadiationPressureEllipsoid

SolarRadiationPressureEllipsoid

Method Detail

getSolarFlux

computeAcceleration

addContribution

getLightningRatio

getEventsDetectors

addDAccDState

addDAccDParam

computeGradientPosition

computeGradientVelocity