RANSAC and other model fitting algorithms¶
// typedefs typedef RANSAC_Template<double> mrpt::math::RANSAC; // classes class mrpt::math::ModelSearch; template < typename NUMTYPE = double, typename DATASET = CMatrixDynamic<NUMTYPE>, typename MODEL = CMatrixDynamic<NUMTYPE> > class mrpt::math::RANSAC_Template; // global functions template <typename NUMTYPE> void mrpt::math::ransac_detect_3D_planes( const CVectorDynamic<NUMTYPE>& x, const CVectorDynamic<NUMTYPE>& y, const CVectorDynamic<NUMTYPE>& z, std::vector<std::pair<size_t, TPlane>>& out_detected_planes, const double threshold, const size_t min_inliers_for_valid_plane = 10 ); template <typename NUMTYPE> void mrpt::math::ransac_detect_2D_lines( const CVectorDynamic<NUMTYPE>& x, const CVectorDynamic<NUMTYPE>& y, std::vector<std::pair<size_t, TLine2D>>& out_detected_lines, const double threshold, const size_t min_inliers_for_valid_line = 5 ); template <class POINTSMAP> void mrpt::math::ransac_detect_3D_planes( const POINTSMAP* points_map, std::vector<std::pair<size_t, TPlane>>& out_detected_planes, const double threshold, const size_t min_inliers_for_valid_plane ); template <typename T> size_t mrpt::math::ransacDatasetSize(const CMatrixDynamic<T>& dataset);
Typedefs¶
typedef RANSAC_Template<double> mrpt::math::RANSAC
The default instance of RANSAC, for double type.
Global Functions¶
template <typename NUMTYPE> void mrpt::math::ransac_detect_3D_planes( const CVectorDynamic<NUMTYPE>& x, const CVectorDynamic<NUMTYPE>& y, const CVectorDynamic<NUMTYPE>& z, std::vector<std::pair<size_t, TPlane>>& out_detected_planes, const double threshold, const size_t min_inliers_for_valid_plane = 10 )
Fit a number of 3-D planes to a given point cloud, automatically determining the number of existing planes by means of the provided threshold and minimum number of supporting inliers.
Parameters:
out_detected_planes |
The output list of pairs: number of supporting inliers, detected plane. |
threshold |
The maximum distance between a point and a temptative plane such as the point is considered an inlier. |
min_inliers_for_valid_plane |
The minimum number of supporting inliers to consider a plane as valid. |
template <typename NUMTYPE> void mrpt::math::ransac_detect_2D_lines( const CVectorDynamic<NUMTYPE>& x, const CVectorDynamic<NUMTYPE>& y, std::vector<std::pair<size_t, TLine2D>>& out_detected_lines, const double threshold, const size_t min_inliers_for_valid_line = 5 )
Fit a number of 2-D lines to a given point cloud, automatically determining the number of existing lines by means of the provided threshold and minimum number of supporting inliers.
Parameters:
out_detected_lines |
The output list of pairs: number of supporting inliers, detected line. |
threshold |
The maximum distance between a point and a temptative line such as the point is considered an inlier. |
min_inliers_for_valid_line |
The minimum number of supporting inliers to consider a line as valid. |
template <class POINTSMAP> void mrpt::math::ransac_detect_3D_planes( const POINTSMAP* points_map, std::vector<std::pair<size_t, TPlane>>& out_detected_planes, const double threshold, const size_t min_inliers_for_valid_plane )
A stub for ransac_detect_3D_planes() with the points given as a mrpt::maps::CPointsMap.
template <typename T> size_t mrpt::math::ransacDatasetSize(const CMatrixDynamic<T>& dataset)
Define overloaded functions for user types as required.
This default implementation assumes datasets in matrices, with each sample being a column, the dimensionality being the number of rows.