Package com.irurueta.navigation.inertial.calibration.gyroscope

Class EulerQuaternionStepIntegrator

java.lang.Object
com.irurueta.navigation.inertial.calibration.gyroscope.QuaternionStepIntegrator
com.irurueta.navigation.inertial.calibration.gyroscope.EulerQuaternionStepIntegrator
public class EulerQuaternionStepIntegrator extends QuaternionStepIntegrator
Computes an integration step of a quaternion using Euler's method. More information available here: https://en.wikipedia.org/wiki/Euler_method

  • Field Summary

    Fields
    Modifier and Type
    Field
    Description
    private com.irurueta.algebra.Matrix
    k1
    Slope of quaternion derivative at initial timestamp t0 to be reused.
    private com.irurueta.algebra.Matrix
    omega0
    Angular speed at initial timestamp t0 to be reused.
    private com.irurueta.algebra.Matrix
    omegaSkew
    Skew antisymmetric matrix used for quaternion time derivative computation to be reused.
    private com.irurueta.algebra.Matrix
    quat
    Initial attitude to be reused.
    private com.irurueta.algebra.Matrix
    quatResult
    Instance where result of integration is stored in matrix form being reused.

    Fields inherited from class com.irurueta.navigation.inertial.calibration.gyroscope.QuaternionStepIntegrator

    DEFAULT_TYPE

  • Constructor Summary

    Constructors
    Constructor
    Description
    EulerQuaternionStepIntegrator()
    Constructor.

  • Method Summary

    Modifier and Type
    Method
    Description
    QuaternionStepIntegratorType
    getType()
    Gets type of this integrator.
    void
    integrate(com.irurueta.geometry.Quaternion initialAttitude, double initialWx, double initialWy, double initialWz, double currentWx, double currentWy, double currentWz, double dt, com.irurueta.geometry.Quaternion result)
    Performs an integration step using Euler's method.
    static void
    integrationStep(com.irurueta.geometry.Quaternion initialAttitude, double initialWx, double initialWy, double initialWz, double dt, com.irurueta.geometry.Quaternion result)
    Performs an integration step using Euler's method.
    private static void
    integrationStep(com.irurueta.geometry.Quaternion initialAttitude, double initialWx, double initialWy, double initialWz, double dt, com.irurueta.geometry.Quaternion result, com.irurueta.algebra.Matrix omega0, com.irurueta.algebra.Matrix quat, com.irurueta.algebra.Matrix quatResult, com.irurueta.algebra.Matrix k1, com.irurueta.algebra.Matrix omegaSkew)
    Internal method computing an integration step using Euler's method.

    Methods inherited from class com.irurueta.navigation.inertial.calibration.gyroscope.QuaternionStepIntegrator

    computeAverageAngularSpeed, computeOmegaSkew, computeTimeDerivative, copyAngularSpeedToMatrix, create, create

    Methods inherited from class java.lang.Object

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

  • Field Details

    • omega0

      private com.irurueta.algebra.Matrix omega0
      Angular speed at initial timestamp t0 to be reused.

    • quat

      private com.irurueta.algebra.Matrix quat
      Initial attitude to be reused.

    • quatResult

      private com.irurueta.algebra.Matrix quatResult
      Instance where result of integration is stored in matrix form being reused.

    • k1

      private com.irurueta.algebra.Matrix k1
      Slope of quaternion derivative at initial timestamp t0 to be reused.

    • omegaSkew

      private com.irurueta.algebra.Matrix omegaSkew
      Skew antisymmetric matrix used for quaternion time derivative computation to be reused.

  • Constructor Details

    • EulerQuaternionStepIntegrator

      public EulerQuaternionStepIntegrator()
      Constructor. Initializes matrices being reused.

  • Method Details

    • getType

      public QuaternionStepIntegratorType getType()
      Gets type of this integrator.
      Specified by:
      getType in class QuaternionStepIntegrator
      Returns:
      indicates type of this integrator.

    • integrate

      public void integrate(com.irurueta.geometry.Quaternion initialAttitude, double initialWx, double initialWy, double initialWz, double currentWx, double currentWy, double currentWz, double dt, com.irurueta.geometry.Quaternion result) throws com.irurueta.geometry.RotationException
      Performs an integration step using Euler's method. More information available here: https://en.wikipedia.org/wiki/Euler_method
      Specified by:
      integrate in class QuaternionStepIntegrator
      Parameters:
      initialAttitude - initial attitude.
      initialWx - initial x-coordinate rotation velocity at initial timestamp expressed in radians per second (rad/s).
      initialWy - initial y-coordinate rotation velocity at initial timestamp expressed in radians per second (rad/s).
      initialWz - initial z-coordinate rotation velocity at initial timestamp expressed in radians per second (rad/s).*
      currentWx - end x-coordinate rotation velocity at current timestamp expressed in radians per second (rad/s).
      currentWy - end y-coordinate rotation velocity at current timestamp expressed in radians per second (rad/s).
      currentWz - end z-coordinate rotation velocity at current timestamp expressed in radians per second (rad/s).
      dt - time step expressed in seconds.
      result - instance where result of integration will be stored.
      Throws:
      com.irurueta.geometry.RotationException - if a numerical error occurs.

    • integrationStep

      public static void integrationStep(com.irurueta.geometry.Quaternion initialAttitude, double initialWx, double initialWy, double initialWz, double dt, com.irurueta.geometry.Quaternion result) throws com.irurueta.geometry.RotationException
      Performs an integration step using Euler's method. More information available here: https://en.wikipedia.org/wiki/Euler_method This method should only be used sporadically. For better performance, if this method needs to be called very frequently, a new instance of EulerQuaternionStepIntegrator should be used and the non-static method should be used instead.
      Parameters:
      initialAttitude - initial attitude.
      initialWx - end x-coordinate rotation velocity at current timestamp expressed in radians per second (rad/s).
      initialWy - end y-coordinate rotation velocity at current timestamp expressed in radians per second (rad/s).
      initialWz - end z-coordinate rotation velocity at current timestamp expressed in radians per second (rad/s).
      dt - time step expressed in seconds.
      result - instance where result of integration will be stored.
      Throws:
      com.irurueta.geometry.RotationException - if a numerical error occurs.

    • integrationStep

      private static void integrationStep(com.irurueta.geometry.Quaternion initialAttitude, double initialWx, double initialWy, double initialWz, double dt, com.irurueta.geometry.Quaternion result, com.irurueta.algebra.Matrix omega0, com.irurueta.algebra.Matrix quat, com.irurueta.algebra.Matrix quatResult, com.irurueta.algebra.Matrix k1, com.irurueta.algebra.Matrix omegaSkew) throws com.irurueta.geometry.RotationException
      Internal method computing an integration step using Euler's method. This method is used internally so that reusable instances can be provided as parameters.
      Parameters:
      initialAttitude - initial attitude.
      initialWx - initial x-coordinate rotation velocity at current timestamp expressed in radians per second (rad/s).
      initialWy - initial y-coordinate rotation velocity at current timestamp expressed in radians per second (rad/s).
      initialWz - initial z-coordinate rotation velocity at current timestamp expressed in radians per second (rad/s).
      dt - time step expressed in seconds.
      result - instance where result of integration will be stored.
      omega0 - angular speed at initial timestamp t0 to be reused. Must be 3x1.
      quat - initial attitude to be reused. Must be 4x1.
      quatResult - instance where result of integration is stored in matrix form being reused. Must be 4x1.
      k1 - slope of quaternion derivative at initial timestamp t0 to be reused. Must be 4x1.
      omegaSkew - skew antisymmetric matrix used for quaternion time derivative computation to be reused. Must be 4x4.
      Throws:
      com.irurueta.geometry.RotationException - if a numerical error occurs.