proj_match_points_distortion_ransac_guidedT_proj_match_points_distortion_ransac_guidedProjMatchPointsDistortionRansacGuidedProjMatchPointsDistortionRansacGuidedproj_match_points_distortion_ransac_guided (Operator)

Name

proj_match_points_distortion_ransac_guidedT_proj_match_points_distortion_ransac_guidedProjMatchPointsDistortionRansacGuidedProjMatchPointsDistortionRansacGuidedproj_match_points_distortion_ransac_guided — Compute a projective transformation matrix and the radial distortion coefficient between two images by finding correspondences between points based on known approximations of the projective transformation matrix and the radial distortion coefficient.

Signature

proj_match_points_distortion_ransac_guided(Image1, Image2 : : Rows1, Cols1, Rows2, Cols2, GrayMatchMethod, MaskSize, HomMat2DGuide, KappaGuide, DistanceTolerance, MatchThreshold, EstimationMethod, DistanceThreshold, RandSeed : HomMat2D, Kappa, Error, Points1, Points2)

Herror T_proj_match_points_distortion_ransac_guided(const Hobject Image1, const Hobject Image2, const Htuple Rows1, const Htuple Cols1, const Htuple Rows2, const Htuple Cols2, const Htuple GrayMatchMethod, const Htuple MaskSize, const Htuple HomMat2DGuide, const Htuple KappaGuide, const Htuple DistanceTolerance, const Htuple MatchThreshold, const Htuple EstimationMethod, const Htuple DistanceThreshold, const Htuple RandSeed, Htuple* HomMat2D, Htuple* Kappa, Htuple* Error, Htuple* Points1, Htuple* Points2)

void ProjMatchPointsDistortionRansacGuided(const HObject& Image1, const HObject& Image2, const HTuple& Rows1, const HTuple& Cols1, const HTuple& Rows2, const HTuple& Cols2, const HTuple& GrayMatchMethod, const HTuple& MaskSize, const HTuple& HomMat2DGuide, const HTuple& KappaGuide, const HTuple& DistanceTolerance, const HTuple& MatchThreshold, const HTuple& EstimationMethod, const HTuple& DistanceThreshold, const HTuple& RandSeed, HTuple* HomMat2D, HTuple* Kappa, HTuple* Error, HTuple* Points1, HTuple* Points2)

HHomMat2D HImage::ProjMatchPointsDistortionRansacGuided(const HImage& Image2, const HTuple& Rows1, const HTuple& Cols1, const HTuple& Rows2, const HTuple& Cols2, const HString& GrayMatchMethod, Hlong MaskSize, const HHomMat2D& HomMat2DGuide, double KappaGuide, double DistanceTolerance, const HTuple& MatchThreshold, const HString& EstimationMethod, const HTuple& DistanceThreshold, Hlong RandSeed, double* Kappa, double* Error, HTuple* Points1, HTuple* Points2) const

HHomMat2D HImage::ProjMatchPointsDistortionRansacGuided(const HImage& Image2, const HTuple& Rows1, const HTuple& Cols1, const HTuple& Rows2, const HTuple& Cols2, const HString& GrayMatchMethod, Hlong MaskSize, const HHomMat2D& HomMat2DGuide, double KappaGuide, double DistanceTolerance, Hlong MatchThreshold, const HString& EstimationMethod, double DistanceThreshold, Hlong RandSeed, double* Kappa, double* Error, HTuple* Points1, HTuple* Points2) const

HHomMat2D HImage::ProjMatchPointsDistortionRansacGuided(const HImage& Image2, const HTuple& Rows1, const HTuple& Cols1, const HTuple& Rows2, const HTuple& Cols2, const char* GrayMatchMethod, Hlong MaskSize, const HHomMat2D& HomMat2DGuide, double KappaGuide, double DistanceTolerance, Hlong MatchThreshold, const char* EstimationMethod, double DistanceThreshold, Hlong RandSeed, double* Kappa, double* Error, HTuple* Points1, HTuple* Points2) const

HHomMat2D HImage::ProjMatchPointsDistortionRansacGuided(const HImage& Image2, const HTuple& Rows1, const HTuple& Cols1, const HTuple& Rows2, const HTuple& Cols2, const wchar_t* GrayMatchMethod, Hlong MaskSize, const HHomMat2D& HomMat2DGuide, double KappaGuide, double DistanceTolerance, Hlong MatchThreshold, const wchar_t* EstimationMethod, double DistanceThreshold, Hlong RandSeed, double* Kappa, double* Error, HTuple* Points1, HTuple* Points2) const   ( Windows only)

HHomMat2D HHomMat2D::ProjMatchPointsDistortionRansacGuided(const HImage& Image1, const HImage& Image2, const HTuple& Rows1, const HTuple& Cols1, const HTuple& Rows2, const HTuple& Cols2, const HString& GrayMatchMethod, Hlong MaskSize, double KappaGuide, double DistanceTolerance, const HTuple& MatchThreshold, const HString& EstimationMethod, const HTuple& DistanceThreshold, Hlong RandSeed, double* Kappa, double* Error, HTuple* Points1, HTuple* Points2) const

HHomMat2D HHomMat2D::ProjMatchPointsDistortionRansacGuided(const HImage& Image1, const HImage& Image2, const HTuple& Rows1, const HTuple& Cols1, const HTuple& Rows2, const HTuple& Cols2, const HString& GrayMatchMethod, Hlong MaskSize, double KappaGuide, double DistanceTolerance, Hlong MatchThreshold, const HString& EstimationMethod, double DistanceThreshold, Hlong RandSeed, double* Kappa, double* Error, HTuple* Points1, HTuple* Points2) const

HHomMat2D HHomMat2D::ProjMatchPointsDistortionRansacGuided(const HImage& Image1, const HImage& Image2, const HTuple& Rows1, const HTuple& Cols1, const HTuple& Rows2, const HTuple& Cols2, const char* GrayMatchMethod, Hlong MaskSize, double KappaGuide, double DistanceTolerance, Hlong MatchThreshold, const char* EstimationMethod, double DistanceThreshold, Hlong RandSeed, double* Kappa, double* Error, HTuple* Points1, HTuple* Points2) const

HHomMat2D HHomMat2D::ProjMatchPointsDistortionRansacGuided(const HImage& Image1, const HImage& Image2, const HTuple& Rows1, const HTuple& Cols1, const HTuple& Rows2, const HTuple& Cols2, const wchar_t* GrayMatchMethod, Hlong MaskSize, double KappaGuide, double DistanceTolerance, Hlong MatchThreshold, const wchar_t* EstimationMethod, double DistanceThreshold, Hlong RandSeed, double* Kappa, double* Error, HTuple* Points1, HTuple* Points2) const   ( Windows only)

static void HOperatorSet.ProjMatchPointsDistortionRansacGuided(HObject image1, HObject image2, HTuple rows1, HTuple cols1, HTuple rows2, HTuple cols2, HTuple grayMatchMethod, HTuple maskSize, HTuple homMat2DGuide, HTuple kappaGuide, HTuple distanceTolerance, HTuple matchThreshold, HTuple estimationMethod, HTuple distanceThreshold, HTuple randSeed, out HTuple homMat2D, out HTuple kappa, out HTuple error, out HTuple points1, out HTuple points2)

HHomMat2D HImage.ProjMatchPointsDistortionRansacGuided(HImage image2, HTuple rows1, HTuple cols1, HTuple rows2, HTuple cols2, string grayMatchMethod, int maskSize, HHomMat2D homMat2DGuide, double kappaGuide, double distanceTolerance, HTuple matchThreshold, string estimationMethod, HTuple distanceThreshold, int randSeed, out double kappa, out double error, out HTuple points1, out HTuple points2)

HHomMat2D HImage.ProjMatchPointsDistortionRansacGuided(HImage image2, HTuple rows1, HTuple cols1, HTuple rows2, HTuple cols2, string grayMatchMethod, int maskSize, HHomMat2D homMat2DGuide, double kappaGuide, double distanceTolerance, int matchThreshold, string estimationMethod, double distanceThreshold, int randSeed, out double kappa, out double error, out HTuple points1, out HTuple points2)

HHomMat2D HHomMat2D.ProjMatchPointsDistortionRansacGuided(HImage image1, HImage image2, HTuple rows1, HTuple cols1, HTuple rows2, HTuple cols2, string grayMatchMethod, int maskSize, double kappaGuide, double distanceTolerance, HTuple matchThreshold, string estimationMethod, HTuple distanceThreshold, int randSeed, out double kappa, out double error, out HTuple points1, out HTuple points2)

HHomMat2D HHomMat2D.ProjMatchPointsDistortionRansacGuided(HImage image1, HImage image2, HTuple rows1, HTuple cols1, HTuple rows2, HTuple cols2, string grayMatchMethod, int maskSize, double kappaGuide, double distanceTolerance, int matchThreshold, string estimationMethod, double distanceThreshold, int randSeed, out double kappa, out double error, out HTuple points1, out HTuple points2)

def proj_match_points_distortion_ransac_guided(image_1: HObject, image_2: HObject, rows_1: Sequence[Union[float, int]], cols_1: Sequence[Union[float, int]], rows_2: Sequence[Union[float, int]], cols_2: Sequence[Union[float, int]], gray_match_method: str, mask_size: int, hom_mat_2dguide: Sequence[float], kappa_guide: float, distance_tolerance: float, match_threshold: Union[int, float], estimation_method: str, distance_threshold: Union[float, int], rand_seed: int) -> Tuple[Sequence[float], float, float, Sequence[int], Sequence[int]]

Description

Given a set of coordinates of characteristic points (Rows1Rows1Rows1Rows1rows1rows_1,Cols1Cols1Cols1Cols1cols1cols_1) and (Rows2Rows2Rows2Rows2rows2rows_2Cols2Cols2Cols2Cols2cols2cols_2) in both input images Image1Image1Image1Image1image1image_1 and Image2Image2Image2Image2image2image_2, which must have identical size, and given known approximations HomMat2DGuideHomMat2DGuideHomMat2DGuideHomMat2DGuidehomMat2DGuidehom_mat_2dguide and KappaGuideKappaGuideKappaGuideKappaGuidekappaGuidekappa_guide for the transformation matrix and the radial distortion coefficient between Image1Image1Image1Image1image1image_1 and Image2Image2Image2Image2image2image_2, proj_match_points_distortion_ransac_guidedproj_match_points_distortion_ransac_guidedProjMatchPointsDistortionRansacGuidedProjMatchPointsDistortionRansacGuidedProjMatchPointsDistortionRansacGuidedproj_match_points_distortion_ransac_guided automatically determines corresponding points, the homogeneous projective transformation matrix HomMat2DHomMat2DHomMat2DHomMat2DhomMat2Dhom_mat_2d, and the radial distortion coefficient KappaKappaKappaKappakappakappa that optimally fulfill the following equation: Here, and denote image points that are obtained by undistorting the input image points with the division model (see Calibration): Here, and denote the distorted image points, specified relative to the image center, and w and h denote the width and height of the input images. Thus, proj_match_points_distortion_ransac_guidedproj_match_points_distortion_ransac_guidedProjMatchPointsDistortionRansacGuidedProjMatchPointsDistortionRansacGuidedProjMatchPointsDistortionRansacGuidedproj_match_points_distortion_ransac_guided assumes that the principal point of the camera, i.e., the center of the radial distortions, lies at the center of the image.

The returned KappaKappaKappaKappakappakappa can be used to construct camera parameters that can be used to rectify images or points (see change_radial_distortion_cam_parchange_radial_distortion_cam_parChangeRadialDistortionCamParChangeRadialDistortionCamParChangeRadialDistortionCamParchange_radial_distortion_cam_par, change_radial_distortion_imagechange_radial_distortion_imageChangeRadialDistortionImageChangeRadialDistortionImageChangeRadialDistortionImagechange_radial_distortion_image, and change_radial_distortion_pointschange_radial_distortion_pointsChangeRadialDistortionPointsChangeRadialDistortionPointsChangeRadialDistortionPointschange_radial_distortion_points):

The approximations HomMat2DGuideHomMat2DGuideHomMat2DGuideHomMat2DGuidehomMat2DGuidehom_mat_2dguide and KappaGuideKappaGuideKappaGuideKappaGuidekappaGuidekappa_guide can, for example, be calculated with proj_match_points_distortion_ransacproj_match_points_distortion_ransacProjMatchPointsDistortionRansacProjMatchPointsDistortionRansacProjMatchPointsDistortionRansacproj_match_points_distortion_ransac on lower resolution versions of Image1Image1Image1Image1image1image_1 and Image2Image2Image2Image2image2image_2. See the example below.

The matching process is based on characteristic points, which can be extracted with point operators like points_foerstnerpoints_foerstnerPointsFoerstnerPointsFoerstnerPointsFoerstnerpoints_foerstner or points_harrispoints_harrisPointsHarrisPointsHarrisPointsHarrispoints_harris. The matching itself is carried out in two steps: first, gray value correlations of mask windows around the input points in the first and the second image are determined and an initial matching between them is generated using the similarity of the windows in both images. Then, the RANSAC algorithm is applied to find the projective transformation matrix and radial distortion coefficient that maximizes the number of correspondences under the above constraint.

The size of the mask windows used for the matching is MaskSizeMaskSizeMaskSizeMaskSizemaskSizemask_size x MaskSizeMaskSizeMaskSizeMaskSizemaskSizemask_size. Three metrics for the correlation can be selected. If GrayMatchMethodGrayMatchMethodGrayMatchMethodGrayMatchMethodgrayMatchMethodgray_match_method has the value 'ssd'"ssd""ssd""ssd""ssd""ssd", the sum of the squared gray value differences is used, 'sad'"sad""sad""sad""sad""sad" means the sum of absolute differences, and 'ncc'"ncc""ncc""ncc""ncc""ncc" is the normalized cross correlation. For details please refer to binocular_disparitybinocular_disparityBinocularDisparityBinocularDisparityBinocularDisparitybinocular_disparity. The metric is minimized ('ssd'"ssd""ssd""ssd""ssd""ssd", 'sad'"sad""sad""sad""sad""sad") or maximized ('ncc'"ncc""ncc""ncc""ncc""ncc") over all possible point pairs. A thus found matching is only accepted if the value of the metric is below the value of MatchThresholdMatchThresholdMatchThresholdMatchThresholdmatchThresholdmatch_threshold ('ssd'"ssd""ssd""ssd""ssd""ssd", 'sad'"sad""sad""sad""sad""sad") or above that value ('ncc'"ncc""ncc""ncc""ncc""ncc").

To increase the algorithm's performance, the search area for the match candidates is limited based on the approximate transformation specified by HomMat2DGuideHomMat2DGuideHomMat2DGuideHomMat2DGuidehomMat2DGuidehom_mat_2dguide and KappaGuideKappaGuideKappaGuideKappaGuidekappaGuidekappa_guide. Only points within a distance of DistanceToleranceDistanceToleranceDistanceToleranceDistanceTolerancedistanceTolerancedistance_tolerance around the point in Image2Image2Image2Image2image2image_2 that is obtained when transforming a point in Image1Image1Image1Image1image1image_1 via HomMat2DGuideHomMat2DGuideHomMat2DGuideHomMat2DGuidehomMat2DGuidehom_mat_2dguide and KappaGuideKappaGuideKappaGuideKappaGuidekappaGuidekappa_guide are considered for the matching.

After the initial matching has been completed, a randomized search algorithm (RANSAC) is used to determine the projective transformation matrix HomMat2DHomMat2DHomMat2DHomMat2DhomMat2Dhom_mat_2d and the radial distortion coefficient KappaKappaKappaKappakappakappa. It tries to find the parameters that are consistent with a maximum number of correspondences. For a point to be accepted, the distance to its corresponding transformed point must not exceed the threshold DistanceThresholdDistanceThresholdDistanceThresholdDistanceThresholddistanceThresholddistance_threshold. Consequently, DistanceThresholdDistanceThresholdDistanceThresholdDistanceThresholddistanceThresholddistance_threshold should be smaller than DistanceToleranceDistanceToleranceDistanceToleranceDistanceTolerancedistanceTolerancedistance_tolerance.

The parameter EstimationMethodEstimationMethodEstimationMethodEstimationMethodestimationMethodestimation_method determines which algorithm is used to compute the projective transformation matrix. A linear algorithm is used if EstimationMethodEstimationMethodEstimationMethodEstimationMethodestimationMethodestimation_method is set to 'linear'"linear""linear""linear""linear""linear". This algorithm is very fast and returns accurate results for small to moderate noise of the point coordinates and for most distortions (except for small distortions). For EstimationMethodEstimationMethodEstimationMethodEstimationMethodestimationMethodestimation_method = 'gold_standard'"gold_standard""gold_standard""gold_standard""gold_standard""gold_standard", a mathematically optimal but slower optimization is used, which minimizes the geometric reprojection error. In general, it is preferable to use EstimationMethodEstimationMethodEstimationMethodEstimationMethodestimationMethodestimation_method = 'gold_standard'"gold_standard""gold_standard""gold_standard""gold_standard""gold_standard".

The value ErrorErrorErrorErrorerrorerror indicates the overall quality of the estimation procedure and is the mean symmetric euclidean distance in pixels between the points and their corresponding transformed points.

Point pairs consistent with the above constraints are considered to be corresponding points. Points1Points1Points1Points1points1points_1 contains the indices of the matched input points from the first image and Points2Points2Points2Points2points2points_2 contains the indices of the corresponding points in the second image.

The parameter RandSeedRandSeedRandSeedRandSeedrandSeedrand_seed can be used to control the randomized nature of the RANSAC algorithm, and hence to obtain reproducible results. If RandSeedRandSeedRandSeedRandSeedrandSeedrand_seed is set to a positive number, the operator returns the same result on every call with the same parameters because the internally used random number generator is initialized with RandSeedRandSeedRandSeedRandSeedrandSeedrand_seed. If RandSeedRandSeedRandSeedRandSeedrandSeedrand_seed = 0, the random number generator is initialized with the current time. In this case the results may not be reproducible.

Execution Information

Parameters

Image1Image1Image1Image1image1image_1 (input_object)  singlechannelimage objectHImageHObjectHImageHobject (byte / uint2)

Input image 1.

Image2Image2Image2Image2image2image_2 (input_object)  singlechannelimage objectHImageHObjectHImageHobject (byte / uint2)

Input image 2.

Rows1Rows1Rows1Rows1rows1rows_1 (input_control)  point.y-array HTupleSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)

Input points in image 1 (row coordinate).

Restriction: length(Rows1) >= 5

Cols1Cols1Cols1Cols1cols1cols_1 (input_control)  point.x-array HTupleSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)

Input points in image 1 (column coordinate).

Restriction: length(Cols1) == length(Rows1)

Rows2Rows2Rows2Rows2rows2rows_2 (input_control)  point.y-array HTupleSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)

Input points in image 2 (row coordinate).

Restriction: length(Rows2) >= 5

Cols2Cols2Cols2Cols2cols2cols_2 (input_control)  point.x-array HTupleSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)

Input points in image 2 (column coordinate).

Restriction: length(Cols2) == length(Rows2)

GrayMatchMethodGrayMatchMethodGrayMatchMethodGrayMatchMethodgrayMatchMethodgray_match_method (input_control)  string HTuplestrHTupleHtuple (string) (string) (HString) (char*)

Gray value match metric.

Default: 'ncc' "ncc" "ncc" "ncc" "ncc" "ncc"

List of values: 'ncc'"ncc""ncc""ncc""ncc""ncc", 'sad'"sad""sad""sad""sad""sad", 'ssd'"ssd""ssd""ssd""ssd""ssd"

MaskSizeMaskSizeMaskSizeMaskSizemaskSizemask_size (input_control)  integer HTupleintHTupleHtuple (integer) (int / long) (Hlong) (Hlong)

Size of gray value masks.

Default: 10

Suggested values: 3, 7, 15

Value range: 1 ≤ MaskSize MaskSize MaskSize MaskSize maskSize mask_size

HomMat2DGuideHomMat2DGuideHomMat2DGuideHomMat2DGuidehomMat2DGuidehom_mat_2dguide (input_control)  hom_mat2d HHomMat2D, HTupleSequence[float]HTupleHtuple (real) (double) (double) (double)

Approximation of the homogeneous projective transformation matrix between the two images.

KappaGuideKappaGuideKappaGuideKappaGuidekappaGuidekappa_guide (input_control)  real HTuplefloatHTupleHtuple (real) (double) (double) (double)

Approximation of the radial distortion coefficient in the two images.

DistanceToleranceDistanceToleranceDistanceToleranceDistanceTolerancedistanceTolerancedistance_tolerance (input_control)  real HTuplefloatHTupleHtuple (real) (double) (double) (double)

Tolerance for the matching search window.

Default: 20.0

Suggested values: 0.2, 0.5, 1.0, 2.0, 3.0, 5.0, 10.0, 20.0, 50.0

Restriction: DistanceTolerance > 0

MatchThresholdMatchThresholdMatchThresholdMatchThresholdmatchThresholdmatch_threshold (input_control)  number HTupleUnion[int, float]HTupleHtuple (integer / real) (int / long / double) (Hlong / double) (Hlong / double)

Threshold for gray value matching.

Default: 0.7

Suggested values: 0.9, 0.7, 0.5, 10, 20, 50, 100

EstimationMethodEstimationMethodEstimationMethodEstimationMethodestimationMethodestimation_method (input_control)  string HTuplestrHTupleHtuple (string) (string) (HString) (char*)

Algorithm for the computation of the projective transformation matrix.

Default: 'gold_standard' "gold_standard" "gold_standard" "gold_standard" "gold_standard" "gold_standard"

List of values: 'gold_standard'"gold_standard""gold_standard""gold_standard""gold_standard""gold_standard", 'linear'"linear""linear""linear""linear""linear"

DistanceThresholdDistanceThresholdDistanceThresholdDistanceThresholddistanceThresholddistance_threshold (input_control)  number HTupleUnion[float, int]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)

Threshold for transformation consistency check.

Default: 1

Restriction: DistanceThreshold > 0

RandSeedRandSeedRandSeedRandSeedrandSeedrand_seed (input_control)  integer HTupleintHTupleHtuple (integer) (int / long) (Hlong) (Hlong)

Seed for the random number generator.

Default: 0

HomMat2DHomMat2DHomMat2DHomMat2DhomMat2Dhom_mat_2d (output_control)  hom_mat2d HHomMat2D, HTupleSequence[float]HTupleHtuple (real) (double) (double) (double)

Computed homogeneous projective transformation matrix.

KappaKappaKappaKappakappakappa (output_control)  real HTuplefloatHTupleHtuple (real) (double) (double) (double)

Computed radial distortion coefficient.

ErrorErrorErrorErrorerrorerror (output_control)  real HTuplefloatHTupleHtuple (real) (double) (double) (double)

Root-Mean-Square transformation error.

Points1Points1Points1Points1points1points_1 (output_control)  integer-array HTupleSequence[int]HTupleHtuple (integer) (int / long) (Hlong) (Hlong)

Indices of matched input points in image 1.

Points2Points2Points2Points2points2points_2 (output_control)  integer-array HTupleSequence[int]HTupleHtuple (integer) (int / long) (Hlong) (Hlong)

Indices of matched input points in image 2.

Example (HDevelop)

Factor := 0.5
zoom_image_factor (Image1, Image1Zoomed, Factor, Factor, 'constant')
zoom_image_factor (Image2, Image2Zoomed, Factor, Factor, 'constant')
points_foerstner (Image1Zoomed, 1, 2, 3, 200, 0.3, 'gauss', 'true', \
                  Rows1, Cols1, _, _, _, _, _, _, _, _)
points_foerstner (Image2Zoomed, 1, 2, 3, 200, 0.3, 'gauss', 'true', \
                  Rows2, Cols2, _, _, _, _, _, _, _, _)
get_image_size (Image1Zoomed, Width, Height)
proj_match_points_distortion_ransac (Image1Zoomed, Image2Zoomed, \
                                     Rows1, Cols1, Rows2, Cols2, \
                                     'ncc', 10, 0, 0, Height, Width, \
                                     0, 0.5, 'gold_standard', 2, 0, \
                                     HomMat2D, Kappa, Error, \
                                     Points1, Points2)
hom_mat2d_scale_local (HomMat2D, Factor, Factor, HomMat2DGuide)
hom_mat2d_scale (HomMat2DGuide, 1.0/Factor, 1.0/Factor, 0, 0, \
                 HomMat2DGuide)
KappaGuide := Kappa*Factor*Factor
points_foerstner (Image1, 1, 2, 3, 200, 0.3, 'gauss', 'true', \
                  Rows1, Cols1, _, _, _, _, _, _, _, _)
points_foerstner (Image2, 1, 2, 3, 200, 0.3, 'gauss', 'true', \
                  Rows2, Cols2, _, _, _, _, _, _, _, _)
proj_match_points_distortion_ransac_guided (Image1, Image2, \
                                            Rows1, Cols1, \
                                            Rows2, Cols2, \
                                            'ncc', 10, \
                                            HomMat2DGuide, \
                                            KappaGuide, 5, 0.5, \
                                            'gold_standard', 2, 0, \
                                            HomMat2D, Kappa, \
                                            Error, Points1, Points2)
get_image_size (Image1, Width, Height)
CamParDist := ['area_scan_division',0.0,Kappa,1.0,1.0, \
               0.5*(Width-1),0.5*(Height-1),Width,Height]
change_radial_distortion_cam_par ('fixed', CamParDist, 0, CamPar)
change_radial_distortion_image (Image1, Image1, Image1Rect, \
                                CamParDist, CamPar)
change_radial_distortion_image (Image2, Image2, Image2Rect, \
                                CamParDist, CamPar)
concat_obj (Image1Rect, Image2Rect, ImagesRect)
gen_projective_mosaic (ImagesRect, MosaicImage, 1, 1, 2, HomMat2D, \
                       'default', 'false', MosaicMatrices2D)

Possible Predecessors

points_foerstnerpoints_foerstnerPointsFoerstnerPointsFoerstnerPointsFoerstnerpoints_foerstner, points_harrispoints_harrisPointsHarrisPointsHarrisPointsHarrispoints_harris

Possible Successors

vector_to_proj_hom_mat2d_distortionvector_to_proj_hom_mat2d_distortionVectorToProjHomMat2dDistortionVectorToProjHomMat2dDistortionVectorToProjHomMat2dDistortionvector_to_proj_hom_mat2d_distortion, change_radial_distortion_cam_parchange_radial_distortion_cam_parChangeRadialDistortionCamParChangeRadialDistortionCamParChangeRadialDistortionCamParchange_radial_distortion_cam_par, change_radial_distortion_imagechange_radial_distortion_imageChangeRadialDistortionImageChangeRadialDistortionImageChangeRadialDistortionImagechange_radial_distortion_image, change_radial_distortion_pointschange_radial_distortion_pointsChangeRadialDistortionPointsChangeRadialDistortionPointsChangeRadialDistortionPointschange_radial_distortion_points, gen_binocular_proj_rectificationgen_binocular_proj_rectificationGenBinocularProjRectificationGenBinocularProjRectificationGenBinocularProjRectificationgen_binocular_proj_rectification, projective_trans_imageprojective_trans_imageProjectiveTransImageProjectiveTransImageProjectiveTransImageprojective_trans_image, projective_trans_image_sizeprojective_trans_image_sizeProjectiveTransImageSizeProjectiveTransImageSizeProjectiveTransImageSizeprojective_trans_image_size, projective_trans_regionprojective_trans_regionProjectiveTransRegionProjectiveTransRegionProjectiveTransRegionprojective_trans_region, projective_trans_contour_xldprojective_trans_contour_xldProjectiveTransContourXldProjectiveTransContourXldProjectiveTransContourXldprojective_trans_contour_xld, projective_trans_point_2dprojective_trans_point_2dProjectiveTransPoint2dProjectiveTransPoint2dProjectiveTransPoint2dprojective_trans_point_2d, projective_trans_pixelprojective_trans_pixelProjectiveTransPixelProjectiveTransPixelProjectiveTransPixelprojective_trans_pixel

Alternatives

proj_match_points_distortion_ransacproj_match_points_distortion_ransacProjMatchPointsDistortionRansacProjMatchPointsDistortionRansacProjMatchPointsDistortionRansacproj_match_points_distortion_ransac

See also

proj_match_points_ransacproj_match_points_ransacProjMatchPointsRansacProjMatchPointsRansacProjMatchPointsRansacproj_match_points_ransac, proj_match_points_ransac_guidedproj_match_points_ransac_guidedProjMatchPointsRansacGuidedProjMatchPointsRansacGuidedProjMatchPointsRansacGuidedproj_match_points_ransac_guided, hom_vector_to_proj_hom_mat2dhom_vector_to_proj_hom_mat2dHomVectorToProjHomMat2dHomVectorToProjHomMat2dHomVectorToProjHomMat2dhom_vector_to_proj_hom_mat2d, vector_to_proj_hom_mat2dvector_to_proj_hom_mat2dVectorToProjHomMat2dVectorToProjHomMat2dVectorToProjHomMat2dvector_to_proj_hom_mat2d

References

Richard Hartley, Andrew Zisserman: “Multiple View Geometry in Computer Vision”; Cambridge University Press, Cambridge; 2003.
Olivier Faugeras, Quang-Tuan Luong: “The Geometry of Multiple Images: The Laws That Govern the Formation of Multiple Images of a Scene and Some of Their Applications”; MIT Press, Cambridge, MA; 2001.

Module

Matching