Specialization of SE for 2D poses.
Definition at line 75 of file SE_traits.h.
#include <mrpt/poses/SE_traits.h>
Public Types | |
enum | { VECTOR_SIZE = 3 } |
typedef mrpt::math::CArrayDouble< VECTOR_SIZE > | array_t |
typedef mrpt::math::CMatrixFixedNumeric< double, VECTOR_SIZE, VECTOR_SIZE > | matrix_VxV_t |
typedef CPose2D | pose_t |
typedef mrpt::math::TPose2D | lightweight_pose_t |
typedef mrpt::math::TPoint2D | point_t |
Static Public Member Functions | |
static void | exp (const array_t &x, CPose2D &P) |
Exponential map in SE(2) More... | |
static void | pseudo_exp (const array_t &x, CPose2D &P) |
Pseudo-Exponential map in SE(2), in this case identical to exp() More... | |
static void | ln (const CPose2D &P, array_t &x) |
Logarithm map in SE(2) More... | |
static void | pseudo_ln (const CPose2D &P, array_t &x) |
A pseudo-Logarithm map in SE(2), where the output = [X,Y, Ln(ROT)], that is, the normal SO(2) logarithm is used for the rotation components, but the translation is left unmodified. More... | |
static void | jacobian_dP1DP2inv_depsilon (const CPose2D &P1DP2inv, matrix_VxV_t *df_de1, matrix_VxV_t *df_de2) |
Return one or both of the following 3x3 Jacobians, useful in graph-slam problems:
With and being increments in the linearized manifold for P1 and P2. More... | |
static void | jacobian_dDinvP1invP2_depsilon (const CPose2D &Dinv, const CPose2D &P1, const CPose2D &P2, matrix_VxV_t *df_de1, matrix_VxV_t *df_de2) |
Return one or both of the following 3x3 Jacobians, useful in graph-slam problems:
With and being increments in the linearized manifold for P1 and P2. More... | |
typedef mrpt::math::CArrayDouble<VECTOR_SIZE> mrpt::poses::SE_traits< 2 >::array_t |
Definition at line 78 of file SE_traits.h.
typedef mrpt::math::TPose2D mrpt::poses::SE_traits< 2 >::lightweight_pose_t |
Definition at line 81 of file SE_traits.h.
typedef mrpt::math::CMatrixFixedNumeric<double,VECTOR_SIZE,VECTOR_SIZE> mrpt::poses::SE_traits< 2 >::matrix_VxV_t |
Definition at line 79 of file SE_traits.h.
typedef mrpt::math::TPoint2D mrpt::poses::SE_traits< 2 >::point_t |
Definition at line 82 of file SE_traits.h.
typedef CPose2D mrpt::poses::SE_traits< 2 >::pose_t |
Definition at line 80 of file SE_traits.h.
anonymous enum |
Enumerator | |
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VECTOR_SIZE |
Definition at line 77 of file SE_traits.h.
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inlinestatic |
Exponential map in SE(2)
Definition at line 85 of file SE_traits.h.
References mrpt::poses::CPose2D::phi(), mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::x(), and mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::y().
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static |
Return one or both of the following 3x3 Jacobians, useful in graph-slam problems:
With and being increments in the linearized manifold for P1 and P2.
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static |
Return one or both of the following 3x3 Jacobians, useful in graph-slam problems:
With and being increments in the linearized manifold for P1 and P2.
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inlinestatic |
Logarithm map in SE(2)
Definition at line 91 of file SE_traits.h.
References mrpt::poses::CPose2D::phi(), mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::x(), and mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::y().
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inlinestatic |
Pseudo-Exponential map in SE(2), in this case identical to exp()
Definition at line 88 of file SE_traits.h.
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inlinestatic |
A pseudo-Logarithm map in SE(2), where the output = [X,Y, Ln(ROT)], that is, the normal SO(2) logarithm is used for the rotation components, but the translation is left unmodified.
Definition at line 96 of file SE_traits.h.
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