reference/2.0.1/_c_pose3_d_quat_p_d_f_8cpp_source.html

 /* +------------------------------------------------------------------------+
    |                     Mobile Robot Programming Toolkit (MRPT)            |
    |                          https://www.mrpt.org/                         |
    |                                                                        |
    | Copyright (c) 2005-2020, Individual contributors, see AUTHORS file     |
    | See: https://www.mrpt.org/Authors - All rights reserved.               |
    | Released under BSD License. See: https://www.mrpt.org/License          |
    +------------------------------------------------------------------------+ */

 #include "poses-precomp.h"  // Precompiled headers

 #include <mrpt/poses/CPose3DPDFGaussian.h>
 #include <mrpt/poses/CPose3DQuatPDF.h>
 #include <mrpt/poses/CPose3DQuatPDFGaussian.h>
 #include <mrpt/serialization/CArchive.h>
 #include <Eigen/Dense>

 using namespace mrpt::poses;
 using namespace mrpt::math;
 using namespace std;

 IMPLEMENTS_VIRTUAL_SERIALIZABLE(CPose3DQuatPDF, CSerializable, mrpt::poses)

 /*---------------------------------------------------------------
                     copyFrom2D
   ---------------------------------------------------------------*/
 CPose3DQuatPDF* CPose3DQuatPDF::createFrom2D(const CPosePDF& o)
 {
     MRPT_START

     CPose3DPDFGaussian q;
     q.copyFrom(o);

     return new CPose3DQuatPDFGaussian(q);

     MRPT_END
 }

 /*---------------------------------------------------------------
                     jacobiansPoseComposition
  ---------------------------------------------------------------*/
 void CPose3DQuatPDF::jacobiansPoseComposition(
     const CPose3DQuat& x, const CPose3DQuat& u, CMatrixDouble77& df_dx,
     CMatrixDouble77& df_du, CPose3DQuat* out_x_oplus_u)
 {
     // For the derivation of the formulas, see the tech. report cited in the
     // header file.
     const double qr = x.quat().r();
     const double qx = x.quat().x();
     const double qx2 = square(qx);
     const double qy = x.quat().y();
     const double qy2 = square(qy);
     const double qz = x.quat().z();
     const double qz2 = square(qz);

     const double ax = u.x();
     const double ay = u.y();
     const double az = u.z();
     const double q2r = u.quat().r();
     const double q2x = u.quat().x();
     const double q2y = u.quat().y();
     const double q2z = u.quat().z();

     CPose3DQuat x_plus_u = x + u;  // needed for the normalization Jacobian:
     CMatrixDouble44 norm_jacob(UNINITIALIZED_MATRIX);
     x_plus_u.quat().normalizationJacobian(norm_jacob);

     CMatrixDouble44 norm_jacob_x(UNINITIALIZED_MATRIX);
     x.quat().normalizationJacobian(norm_jacob_x);

     // df_dx ===================================================
     df_dx.setZero();

     // first part 3x7:  df_{qr} / dp
     df_dx(0, 0) = 1;
     df_dx(1, 1) = 1;
     df_dx(2, 2) = 1;

     alignas(MRPT_MAX_STATIC_ALIGN_BYTES)
         const double vals2[3 * 4] = {2 * (-qz * ay + qy * az),
                                      2 * (qy * ay + qz * az),
                                      2 * (-2 * qy * ax + qx * ay + qr * az),
                                      2 * (-2 * qz * ax - qr * ay + qx * az),

                                      2 * (qz * ax - qx * az),
                                      2 * (qy * ax - 2 * qx * ay - qr * az),
                                      2 * (qx * ax + qz * az),
                                      2 * (qr * ax - 2 * qz * ay + qy * az),

                                      2 * (-qy * ax + qx * ay),
                                      2 * (qz * ax + qr * ay - 2 * qx * az),
                                      2 * (-qr * ax + qz * ay - 2 * qy * az),
                                      2 * (qx * ax + qy * ay)};

     // df_dx(0:3,3:7) = vals2 * NORM_JACOB
     df_dx.block<3, 4>(0, 3).noalias() =
         (CMatrixFixed<double, 3, 4>(vals2) * norm_jacob_x).eval();

     // second part:
     {
         alignas(MRPT_MAX_STATIC_ALIGN_BYTES) const double aux44_data[4 * 4] = {
             q2r, -q2x, -q2y, -q2z, q2x, q2r, q2z,  -q2y,
             q2y, -q2z, q2r,  q2x,  q2z, q2y, -q2x, q2r};

         df_dx.block<4, 4>(3, 3).noalias() =
             (norm_jacob * CMatrixFixed<double, 4, 4>(aux44_data)).asEigen();
     }

     // df_du ===================================================
     df_du.setZero();

     // first part 3x3:  df_{qr} / da
     df_du(0, 0) = 1 - 2 * (qy2 + qz2);
     df_du(0, 1) = 2 * (qx * qy - qr * qz);
     df_du(0, 2) = 2 * (qr * qy + qx * qz);

     df_du(1, 0) = 2 * (qr * qz + qx * qy);
     df_du(1, 1) = 1 - 2 * (qx2 + qz2);
     df_du(1, 2) = 2 * (qy * qz - qr * qx);

     df_du(2, 0) = 2 * (qx * qz - qr * qy);
     df_du(2, 1) = 2 * (qr * qx + qy * qz);
     df_du(2, 2) = 1 - 2 * (qx2 + qy2);

     // Second part:
     {
         alignas(MRPT_MAX_STATIC_ALIGN_BYTES) const double aux44_data[4 * 4] = {
             qr, -qx, -qy, -qz, qx, qr,  -qz, qy,
             qy, qz,  qr,  -qx, qz, -qy, qx,  qr};

         df_du.block<4, 4>(3, 3).noalias() =
             (norm_jacob * CMatrixFixed<double, 4, 4>(aux44_data)).asEigen();
     }

     if (out_x_oplus_u) *out_x_oplus_u = x_plus_u;
 }
IMPLEMENTS_VIRTUAL_SERIALIZABLE
#define IMPLEMENTS_VIRTUAL_SERIALIZABLE(class_name, base_class, NS)
This must be inserted as implementation of some required members for virtual CSerializable classes: ...
Definition: CSerializable.h:177

mrpt::poses::CPose3DQuat::quat
mrpt::math::CQuaternionDouble & quat()
Read/Write access to the quaternion representing the 3D rotation.
Definition: CPose3DQuat.h:58

mrpt::math::CMatrixFixed
A compile-time fixed-size numeric matrix container.
Definition: CMatrixFixed.h:33

MRPT_START
#define MRPT_START
Definition: exceptions.h:241

mrpt::poses::CPose3DPDFGaussian::copyFrom
void copyFrom(const CPose3DPDF &o) override
Copy operator, translating if necesary (for example, between particles and gaussian representations) ...
Definition: CPose3DPDFGaussian.cpp:245

mrpt::math::UNINITIALIZED_MATRIX
Definition: math_frwds.h:57

mrpt::math::CQuaternion::y
T y() const
Return y coordinate of the quaternion.
Definition: CQuaternion.h:107

poses-precomp.h

mrpt::poses::CPoseOrPoint::y
double y() const
Definition: CPoseOrPoint.h:147

CPose3DQuatPDF.h

std
STL namespace.

mrpt::poses::CPose3DQuatPDFGaussian
Declares a class that represents a Probability Density function (PDF) of a 3D pose using a quaternion...
Definition: CPose3DQuatPDFGaussian.h:43

mrpt::math
This base provides a set of functions for maths stuff.
Definition: math/include/mrpt/math/bits_math.h:11

mrpt::math::CQuaternion::r
T r() const
Return r (real part) coordinate of the quaternion.
Definition: CQuaternion.h:101

CArchive.h

mrpt::math::MatrixVectorBase::block
auto block(int start_row, int start_col)
non-const block(): Returns an Eigen::Block reference to the block
Definition: MatrixVectorBase.h:138

mrpt::poses::CPoseOrPoint::x
double x() const
Common members of all points & poses classes.
Definition: CPoseOrPoint.h:143

mrpt::math::MatrixVectorBase::setZero
void setZero()
Definition: MatrixVectorBase.h:112

mrpt::poses::CPose3DQuat
A class used to store a 3D pose as a translation (x,y,z) and a quaternion (qr,qx,qy,qz).
Definition: CPose3DQuat.h:45

mrpt::poses::CPosePDF
Declares a class that represents a probability density function (pdf) of a 2D pose (x...
Definition: CPosePDF.h:38

mrpt::poses
Classes for 2D/3D geometry representation, both of single values and probability density distribution...
Definition: CHierarchicalMapMHPartition.h:22

CPose3DPDFGaussian.h

mrpt::square
return_t square(const num_t x)
Inline function for the square of a number.
Definition: core/include/mrpt/core/bits_math.h:23

mrpt::math::CQuaternion::x
T x() const
Return x coordinate of the quaternion.
Definition: CQuaternion.h:105

mrpt::math::CQuaternion::normalizationJacobian
void normalizationJacobian(MATRIXLIKE &J) const
Calculate the 4x4 Jacobian of the normalization operation of this quaternion.
Definition: CQuaternion.h:313

mrpt::poses::CPose3DQuatPDF
Declares a class that represents a Probability Density Function (PDF) of a 3D pose (6D actually)...
Definition: CPose3DQuatPDF.h:43

MRPT_END
#define MRPT_END
Definition: exceptions.h:245

mrpt::poses::CPose3DPDFGaussian
Declares a class that represents a Probability Density function (PDF) of a 3D pose ...
Definition: CPose3DPDFGaussian.h:39

mrpt::poses::CPose3DQuatPDF::jacobiansPoseComposition
static void jacobiansPoseComposition(const CPose3DQuat &x, const CPose3DQuat &u, mrpt::math::CMatrixDouble77 &df_dx, mrpt::math::CMatrixDouble77 &df_du, CPose3DQuat *out_x_oplus_u=nullptr)
This static method computes the two Jacobians of a pose composition operation $f(x,u)= x  u$.
Definition: CPose3DQuatPDF.cpp:42

mrpt::math::CQuaternion::z
T z() const
Return z coordinate of the quaternion.
Definition: CQuaternion.h:109

CPose3DQuatPDFGaussian.h