public final class AeroModel extends Parameterizable implements DragSensitive
Constructor and Description |
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AeroModel(Assembly inAssembly)
Aero model (the acceleration is computed from all the sub parts of the vehicle)
default constructor.
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AeroModel(Assembly inAssembly,
Atmosphere inAtmosphere,
OneAxisEllipsoid inGeodPos)
Aero model (the acceleration is computed from all the sub parts of the vehicle)
with default step for finite differences computation.
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AeroModel(Assembly inAssembly,
Atmosphere inAtmosphere,
OneAxisEllipsoid earthShapeIn,
double altStep)
Aero model (the acceleration is computed from all the sub parts of the vehicle)
with an
Atmosphere model and a OneAxisEllipsoid for acceleration partial
derivatives computation with respect to state by finite differences(including density
partial derivatives). |
Modifier and Type | Method and Description |
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void |
addDDragAccDParam(SpacecraftState s,
Parameter param,
double density,
Vector3D relativeVelocity,
double[] dAccdParam)
Compute acceleration derivatives with respect to ballistic coefficient.
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void |
addDDragAccDState(SpacecraftState s,
double[][] dAccdPos,
double[][] dAccdVel,
double density,
Vector3D acceleration,
Vector3D relativeVelocity,
boolean computeGradientPosition,
boolean computeGradientVelocity)
Compute acceleration derivatives with respect to state parameters (position and velocity).
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Vector3D |
dragAcceleration(SpacecraftState state,
double density,
Vector3D relativeVelocity)
Method to compute the aero acceleration, based on the assembly.
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protected static Vector3D |
forceOnFacet(SpacecraftState state,
IPart part,
Assembly assembly,
double density,
Vector3D relativeVelocity)
Method to compute the force for a plane model.
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protected static Vector3D |
forceOnSphere(SpacecraftState state,
IPart part,
double density,
Vector3D relativeVelocity,
Frame mainPartFrame)
Method to compute the force for the part model (cylinder, parallelepiped, sphere).
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ArrayList<Parameter> |
getJacobianParameters()
Get the list of all jacobian parameters supported.
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addParameter, getParameters, supportsParameter
public AeroModel(Assembly inAssembly, Atmosphere inAtmosphere, OneAxisEllipsoid earthShapeIn, double altStep)
Atmosphere
model and a OneAxisEllipsoid
for acceleration partial
derivatives computation with respect to state by finite differences(including density
partial derivatives).inAssembly
- The considered vehicleinAtmosphere
- the atmospheric modelearthShapeIn
- the spacecraft geodetic position modelaltStep
- atmospheric density derivatives altitude finite differences computationpublic AeroModel(Assembly inAssembly, Atmosphere inAtmosphere, OneAxisEllipsoid inGeodPos)
inAssembly
- The considered vehicleinAtmosphere
- the atmospheric modelinGeodPos
- the spacecraft geodetic position modelpublic AeroModel(Assembly inAssembly)
Warning: This constructor should not be used if partial derivatives have to be computed.
inAssembly
- The considered vehiclepublic Vector3D dragAcceleration(SpacecraftState state, double density, Vector3D relativeVelocity) throws PatriusException
dragAcceleration
in interface DragSensitive
state
- the current state of the spacecraft.density
- the atmosphere density.relativeVelocity
- the spacecraft velocity relative to the atmosphere.PatriusException
- when an error occurs.protected static Vector3D forceOnFacet(SpacecraftState state, IPart part, Assembly assembly, double density, Vector3D relativeVelocity) throws PatriusException
state
- the current state of the spacecraft.part
- the current part of the assembly.assembly
- the assembly.density
- the atmosphere density.relativeVelocity
- the spacecraft velocity relative to the atmosphere.PatriusException
- orekit frame exceptionprotected static Vector3D forceOnSphere(SpacecraftState state, IPart part, double density, Vector3D relativeVelocity, Frame mainPartFrame) throws PatriusException
state
- the current state of the spacecraft.part
- the current part of the assembly.density
- the atmosphere density.relativeVelocity
- the spacecraft velocity relative to the atmosphere.mainPartFrame
- mainPartFramePatriusException
- if no attitude is definedpublic void addDDragAccDParam(SpacecraftState s, Parameter param, double density, Vector3D relativeVelocity, double[] dAccdParam) throws PatriusException
addDDragAccDParam
in interface DragSensitive
s
- the SpacecraftState.param
- name of parameter.density
- the atmosphere density.relativeVelocity
- the spacecraft velocity relative to the atmosphere.dAccdParam
- acceleration derivatives with respect to ballistic coefficient.PatriusException
- if derivatives cannot be computedpublic void addDDragAccDState(SpacecraftState s, double[][] dAccdPos, double[][] dAccdVel, double density, Vector3D acceleration, Vector3D relativeVelocity, boolean computeGradientPosition, boolean computeGradientVelocity) throws PatriusException
addDDragAccDState
in interface DragSensitive
s
- spacecraft statedAccdPos
- acceleration derivatives with respect to position parametersdAccdVel
- acceleration derivatives with respect to velocity parametersdensity
- the atmospheric density valueacceleration
- the spacecraft acceleration in the inertial framerelativeVelocity
- relative velocity of atmosphere with respect to spacecraft,
in the same inertial frame as spacecraft orbit (m/s)computeGradientPosition
- true if partial derivatives with respect to position should be computedcomputeGradientVelocity
- true if partial derivatives with respect to position should be computedPatriusException
- if derivatives cannot be computedpublic ArrayList<Parameter> getJacobianParameters()
getJacobianParameters
in interface JacobianParametersProvider
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