Class FieldPVCoordinates<T extends org.hipparchus.RealFieldElement<T>>

  • Type Parameters:
    T - the type of the field elements
    All Implemented Interfaces:
    TimeShiftable<FieldPVCoordinates<T>>
    Direct Known Subclasses:
    TimeStampedFieldPVCoordinates

    public class FieldPVCoordinates<T extends org.hipparchus.RealFieldElement<T>>
    extends Object
    implements TimeShiftable<FieldPVCoordinates<T>>
    Simple container for Position/Velocity pairs, using RealFieldElement.

    The state can be slightly shifted to close dates. This shift is based on a simple linear model. It is not intended as a replacement for proper orbit propagation (it is not even Keplerian!) but should be sufficient for either small time shifts or coarse accuracy.

    This class is the angular counterpart to FieldAngularCoordinates.

    Instances of this class are guaranteed to be immutable.

    Since:
    6.0
    Author:
    Luc Maisonobe
    See Also:
    PVCoordinates
    • Constructor Detail

      • FieldPVCoordinates

        public FieldPVCoordinates​(org.hipparchus.geometry.euclidean.threed.FieldVector3D<T> position,
                                  org.hipparchus.geometry.euclidean.threed.FieldVector3D<T> velocity)
        Builds a FieldPVCoordinates triplet with zero acceleration.
        Parameters:
        position - the position vector (m)
        velocity - the velocity vector (m/s)
      • FieldPVCoordinates

        public FieldPVCoordinates​(org.hipparchus.geometry.euclidean.threed.FieldVector3D<T> position,
                                  org.hipparchus.geometry.euclidean.threed.FieldVector3D<T> velocity,
                                  org.hipparchus.geometry.euclidean.threed.FieldVector3D<T> acceleration)
        Builds a FieldPVCoordinates triplet.
        Parameters:
        position - the position vector (m)
        velocity - the velocity vector (m/s)
        acceleration - the acceleration vector (m/s²)
      • FieldPVCoordinates

        public FieldPVCoordinates​(org.hipparchus.Field<T> field,
                                  PVCoordinates pv)
        Builds a FieldPVCoordinates from a field and a regular PVCoordinates.
        Parameters:
        field - field for the components
        pv - PVCoordinates triplet to convert
      • FieldPVCoordinates

        public FieldPVCoordinates​(double a,
                                  FieldPVCoordinates<T> pv)
        Multiplicative constructor.

        Build a PVCoordinates from another one and a scale factor.

        The PVCoordinates built will be a * pv

        Parameters:
        a - scale factor
        pv - base (unscaled) PVCoordinates
      • FieldPVCoordinates

        public FieldPVCoordinates​(T a,
                                  FieldPVCoordinates<T> pv)
        Multiplicative constructor.

        Build a PVCoordinates from another one and a scale factor.

        The PVCoordinates built will be a * pv

        Parameters:
        a - scale factor
        pv - base (unscaled) PVCoordinates
      • FieldPVCoordinates

        public FieldPVCoordinates​(T a,
                                  PVCoordinates pv)
        Multiplicative constructor.

        Build a PVCoordinates from another one and a scale factor.

        The PVCoordinates built will be a * pv

        Parameters:
        a - scale factor
        pv - base (unscaled) PVCoordinates
      • FieldPVCoordinates

        public FieldPVCoordinates​(FieldPVCoordinates<T> start,
                                  FieldPVCoordinates<T> end)
        Subtractive constructor.

        Build a relative PVCoordinates from a start and an end position.

        The PVCoordinates built will be end - start.

        Parameters:
        start - Starting PVCoordinates
        end - ending PVCoordinates
      • FieldPVCoordinates

        public FieldPVCoordinates​(double a1,
                                  FieldPVCoordinates<T> pv1,
                                  double a2,
                                  FieldPVCoordinates<T> pv2)
        Linear constructor.

        Build a PVCoordinates from two other ones and corresponding scale factors.

        The PVCoordinates built will be a1 * u1 + a2 * u2

        Parameters:
        a1 - first scale factor
        pv1 - first base (unscaled) PVCoordinates
        a2 - second scale factor
        pv2 - second base (unscaled) PVCoordinates
      • FieldPVCoordinates

        public FieldPVCoordinates​(T a1,
                                  FieldPVCoordinates<T> pv1,
                                  T a2,
                                  FieldPVCoordinates<T> pv2)
        Linear constructor.

        Build a PVCoordinates from two other ones and corresponding scale factors.

        The PVCoordinates built will be a1 * u1 + a2 * u2

        Parameters:
        a1 - first scale factor
        pv1 - first base (unscaled) PVCoordinates
        a2 - second scale factor
        pv2 - second base (unscaled) PVCoordinates
      • FieldPVCoordinates

        public FieldPVCoordinates​(T a1,
                                  PVCoordinates pv1,
                                  T a2,
                                  PVCoordinates pv2)
        Linear constructor.

        Build a PVCoordinates from two other ones and corresponding scale factors.

        The PVCoordinates built will be a1 * u1 + a2 * u2

        Parameters:
        a1 - first scale factor
        pv1 - first base (unscaled) PVCoordinates
        a2 - second scale factor
        pv2 - second base (unscaled) PVCoordinates
      • FieldPVCoordinates

        public FieldPVCoordinates​(double a1,
                                  FieldPVCoordinates<T> pv1,
                                  double a2,
                                  FieldPVCoordinates<T> pv2,
                                  double a3,
                                  FieldPVCoordinates<T> pv3)
        Linear constructor.

        Build a PVCoordinates from three other ones and corresponding scale factors.

        The PVCoordinates built will be a1 * u1 + a2 * u2 + a3 * u3

        Parameters:
        a1 - first scale factor
        pv1 - first base (unscaled) PVCoordinates
        a2 - second scale factor
        pv2 - second base (unscaled) PVCoordinates
        a3 - third scale factor
        pv3 - third base (unscaled) PVCoordinates
      • FieldPVCoordinates

        public FieldPVCoordinates​(T a1,
                                  FieldPVCoordinates<T> pv1,
                                  T a2,
                                  FieldPVCoordinates<T> pv2,
                                  T a3,
                                  FieldPVCoordinates<T> pv3)
        Linear constructor.

        Build a PVCoordinates from three other ones and corresponding scale factors.

        The PVCoordinates built will be a1 * u1 + a2 * u2 + a3 * u3

        Parameters:
        a1 - first scale factor
        pv1 - first base (unscaled) PVCoordinates
        a2 - second scale factor
        pv2 - second base (unscaled) PVCoordinates
        a3 - third scale factor
        pv3 - third base (unscaled) PVCoordinates
      • FieldPVCoordinates

        public FieldPVCoordinates​(T a1,
                                  PVCoordinates pv1,
                                  T a2,
                                  PVCoordinates pv2,
                                  T a3,
                                  PVCoordinates pv3)
        Linear constructor.

        Build a PVCoordinates from three other ones and corresponding scale factors.

        The PVCoordinates built will be a1 * u1 + a2 * u2 + a3 * u3

        Parameters:
        a1 - first scale factor
        pv1 - first base (unscaled) PVCoordinates
        a2 - second scale factor
        pv2 - second base (unscaled) PVCoordinates
        a3 - third scale factor
        pv3 - third base (unscaled) PVCoordinates
      • FieldPVCoordinates

        public FieldPVCoordinates​(double a1,
                                  FieldPVCoordinates<T> pv1,
                                  double a2,
                                  FieldPVCoordinates<T> pv2,
                                  double a3,
                                  FieldPVCoordinates<T> pv3,
                                  double a4,
                                  FieldPVCoordinates<T> pv4)
        Linear constructor.

        Build a PVCoordinates from four other ones and corresponding scale factors.

        The PVCoordinates built will be a1 * u1 + a2 * u2 + a3 * u3 + a4 * u4

        Parameters:
        a1 - first scale factor
        pv1 - first base (unscaled) PVCoordinates
        a2 - second scale factor
        pv2 - second base (unscaled) PVCoordinates
        a3 - third scale factor
        pv3 - third base (unscaled) PVCoordinates
        a4 - fourth scale factor
        pv4 - fourth base (unscaled) PVCoordinates
      • FieldPVCoordinates

        public FieldPVCoordinates​(T a1,
                                  FieldPVCoordinates<T> pv1,
                                  T a2,
                                  FieldPVCoordinates<T> pv2,
                                  T a3,
                                  FieldPVCoordinates<T> pv3,
                                  T a4,
                                  FieldPVCoordinates<T> pv4)
        Linear constructor.

        Build a PVCoordinates from four other ones and corresponding scale factors.

        The PVCoordinates built will be a1 * u1 + a2 * u2 + a3 * u3 + a4 * u4

        Parameters:
        a1 - first scale factor
        pv1 - first base (unscaled) PVCoordinates
        a2 - second scale factor
        pv2 - second base (unscaled) PVCoordinates
        a3 - third scale factor
        pv3 - third base (unscaled) PVCoordinates
        a4 - fourth scale factor
        pv4 - fourth base (unscaled) PVCoordinates
      • FieldPVCoordinates

        public FieldPVCoordinates​(T a1,
                                  PVCoordinates pv1,
                                  T a2,
                                  PVCoordinates pv2,
                                  T a3,
                                  PVCoordinates pv3,
                                  T a4,
                                  PVCoordinates pv4)
        Linear constructor.

        Build a PVCoordinates from four other ones and corresponding scale factors.

        The PVCoordinates built will be a1 * u1 + a2 * u2 + a3 * u3 + a4 * u4

        Parameters:
        a1 - first scale factor
        pv1 - first base (unscaled) PVCoordinates
        a2 - second scale factor
        pv2 - second base (unscaled) PVCoordinates
        a3 - third scale factor
        pv3 - third base (unscaled) PVCoordinates
        a4 - fourth scale factor
        pv4 - fourth base (unscaled) PVCoordinates
      • FieldPVCoordinates

        public FieldPVCoordinates​(org.hipparchus.geometry.euclidean.threed.FieldVector3D<org.hipparchus.analysis.differentiation.FieldDerivativeStructure<T>> p)
        Builds a FieldPVCoordinates triplet from a FieldVector3D<FieldDerivativeStructure>.

        The vector components must have time as their only derivation parameter and have consistent derivation orders.

        Parameters:
        p - vector with time-derivatives embedded within the coordinates
        Since:
        9.2
    • Method Detail

      • getZero

        public static <T extends org.hipparchus.RealFieldElement<T>> FieldPVCoordinates<T> getZero​(org.hipparchus.Field<T> field)
        Get fixed position/velocity at origin (both p, v and a are zero vectors).
        Type Parameters:
        T - the type of the field elements
        Parameters:
        field - field for the components
        Returns:
        a new fixed position/velocity at origin
      • toDerivativeStructureVector

        public org.hipparchus.geometry.euclidean.threed.FieldVector3D<org.hipparchus.analysis.differentiation.FieldDerivativeStructure<T>> toDerivativeStructureVector​(int order)
        Transform the instance to a FieldVector3D<FieldDerivativeStructure>.

        The FieldDerivativeStructure coordinates correspond to time-derivatives up to the user-specified order.

        Parameters:
        order - derivation order for the vector components (must be either 0, 1 or 2)
        Returns:
        vector with time-derivatives embedded within the coordinates
        Since:
        9.2
      • toDerivativeStructurePV

        public FieldPVCoordinates<org.hipparchus.analysis.differentiation.FieldDerivativeStructure<T>> toDerivativeStructurePV​(int order)
        Transform the instance to a FieldPVCoordinates<FieldDerivativeStructure>.

        The FieldDerivativeStructure coordinates correspond to time-derivatives up to the user-specified order. As both the instance components position, velocity and acceleration and the derivatives of the components holds time-derivatives, there are several ways to retrieve these derivatives. If for example the order is set to 2, then both pv.getPosition().getX().getPartialDerivative(2), pv.getVelocity().getX().getPartialDerivative(1) and pv.getAcceleration().getX().getValue() return the exact same value.

        If derivation order is 1, the first derivative of acceleration will be computed as a Keplerian-only jerk. If derivation order is 2, the second derivative of velocity (which is also the first derivative of acceleration) will be computed as a Keplerian-only jerk, and the second derivative of acceleration will be computed as a Keplerian-only jounce.

        Parameters:
        order - derivation order for the vector components (must be either 0, 1 or 2)
        Returns:
        pv coordinates with time-derivatives embedded within the coordinates
        Since:
        9.2
      • estimateVelocity

        public static <T extends org.hipparchus.RealFieldElement<T>> org.hipparchus.geometry.euclidean.threed.FieldVector3D<T> estimateVelocity​(org.hipparchus.geometry.euclidean.threed.FieldVector3D<T> start,
                                                                                                                                                org.hipparchus.geometry.euclidean.threed.FieldVector3D<T> end,
                                                                                                                                                double dt)
        Estimate velocity between two positions.

        Estimation is based on a simple fixed velocity translation during the time interval between the two positions.

        Type Parameters:
        T - the type of the field elements
        Parameters:
        start - start position
        end - end position
        dt - time elapsed between the dates of the two positions
        Returns:
        velocity allowing to go from start to end positions
      • shiftedBy

        public FieldPVCoordinates<T> shiftedBy​(double dt)
        Get a time-shifted state.

        The state can be slightly shifted to close dates. This shift is based on a simple quadratic model. It is not intended as a replacement for proper orbit propagation (it is not even Keplerian!) but should be sufficient for either small time shifts or coarse accuracy.

        Specified by:
        shiftedBy in interface TimeShiftable<T extends org.hipparchus.RealFieldElement<T>>
        Parameters:
        dt - time shift in seconds
        Returns:
        a new state, shifted with respect to the instance (which is immutable)
      • shiftedBy

        public FieldPVCoordinates<T> shiftedBy​(T dt)
        Get a time-shifted state.

        The state can be slightly shifted to close dates. This shift is based on a simple quadratic model. It is not intended as a replacement for proper orbit propagation (it is not even Keplerian!) but should be sufficient for either small time shifts or coarse accuracy.

        Parameters:
        dt - time shift in seconds
        Returns:
        a new state, shifted with respect to the instance (which is immutable)
      • getPosition

        public org.hipparchus.geometry.euclidean.threed.FieldVector3D<T> getPosition()
        Gets the position.
        Returns:
        the position vector (m).
      • getVelocity

        public org.hipparchus.geometry.euclidean.threed.FieldVector3D<T> getVelocity()
        Gets the velocity.
        Returns:
        the velocity vector (m/s).
      • getAcceleration

        public org.hipparchus.geometry.euclidean.threed.FieldVector3D<T> getAcceleration()
        Gets the acceleration.
        Returns:
        the acceleration vector (m/s²).
      • getMomentum

        public org.hipparchus.geometry.euclidean.threed.FieldVector3D<T> getMomentum()
        Gets the momentum.

        This vector is the p ⊗ v where p is position, v is velocity and ⊗ is cross product. To get the real physical angular momentum you need to multiply this vector by the mass.

        The returned vector is recomputed each time this method is called, it is not cached.

        Returns:
        a new instance of the momentum vector (m²/s).
      • getAngularVelocity

        public org.hipparchus.geometry.euclidean.threed.FieldVector3D<T> getAngularVelocity()
        Get the angular velocity (spin) of this point as seen from the origin.

        The angular velocity vector is parallel to the angular * momentum and is computed by ω = p × v / ||p||²

        Returns:
        the angular velocity vector
        See Also:
        Angular Velocity on Wikipedia
      • negate

        public FieldPVCoordinates<T> negate()
        Get the opposite of the instance.
        Returns:
        a new position-velocity which is opposite to the instance
      • normalize

        public FieldPVCoordinates<T> normalize()
        Normalize the position part of the instance.

        The computed coordinates first component (position) will be a normalized vector, the second component (velocity) will be the derivative of the first component (hence it will generally not be normalized), and the third component (acceleration) will be the derivative of the second component (hence it will generally not be normalized).

        Returns:
        a new instance, with first component normalized and remaining component computed to have consistent derivatives
      • crossProduct

        public FieldPVCoordinates<T> crossProduct​(FieldPVCoordinates<T> pv2)
        Compute the cross-product of two instances.
        Parameters:
        pv2 - second instances
        Returns:
        the cross product v1 ^ v2 as a new instance
      • toPVCoordinates

        public PVCoordinates toPVCoordinates()
        Convert to a constant position-velocity.
        Returns:
        a constant position-velocity
      • toString

        public String toString()
        Return a string representation of this position/velocity pair.
        Overrides:
        toString in class Object
        Returns:
        string representation of this position/velocity pair