proj_match_points_ransac T_proj_match_points_ransac ProjMatchPointsRansac ProjMatchPointsRansac proj_match_points_ransac (Operator)
Name
proj_match_points_ransac T_proj_match_points_ransac ProjMatchPointsRansac ProjMatchPointsRansac proj_match_points_ransac
— Compute a projective transformation matrix between two images by
finding correspondences between points.
Signature
proj_match_points_ransac (Image1 , Image2 : : Rows1 , Cols1 , Rows2 , Cols2 , GrayMatchMethod , MaskSize , RowMove , ColMove , RowTolerance , ColTolerance , Rotation , MatchThreshold , EstimationMethod , DistanceThreshold , RandSeed : HomMat2D , Points1 , Points2 )
Herror T_proj_match_points_ransac (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 RowMove , const Htuple ColMove , const Htuple RowTolerance , const Htuple ColTolerance , const Htuple Rotation , const Htuple MatchThreshold , const Htuple EstimationMethod , const Htuple DistanceThreshold , const Htuple RandSeed , Htuple* HomMat2D , Htuple* Points1 , Htuple* Points2 )
void ProjMatchPointsRansac (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& RowMove , const HTuple& ColMove , const HTuple& RowTolerance , const HTuple& ColTolerance , const HTuple& Rotation , const HTuple& MatchThreshold , const HTuple& EstimationMethod , const HTuple& DistanceThreshold , const HTuple& RandSeed , HTuple* HomMat2D , HTuple* Points1 , HTuple* Points2 )
HHomMat2D HImage ::ProjMatchPointsRansac (const HImage& Image2 , const HTuple& Rows1 , const HTuple& Cols1 , const HTuple& Rows2 , const HTuple& Cols2 , const HString& GrayMatchMethod , Hlong MaskSize , Hlong RowMove , Hlong ColMove , Hlong RowTolerance , Hlong ColTolerance , const HTuple& Rotation , const HTuple& MatchThreshold , const HString& EstimationMethod , double DistanceThreshold , Hlong RandSeed , HTuple* Points1 , HTuple* Points2 ) const
HHomMat2D HImage ::ProjMatchPointsRansac (const HImage& Image2 , const HTuple& Rows1 , const HTuple& Cols1 , const HTuple& Rows2 , const HTuple& Cols2 , const HString& GrayMatchMethod , Hlong MaskSize , Hlong RowMove , Hlong ColMove , Hlong RowTolerance , Hlong ColTolerance , double Rotation , Hlong MatchThreshold , const HString& EstimationMethod , double DistanceThreshold , Hlong RandSeed , HTuple* Points1 , HTuple* Points2 ) const
HHomMat2D HImage ::ProjMatchPointsRansac (const HImage& Image2 , const HTuple& Rows1 , const HTuple& Cols1 , const HTuple& Rows2 , const HTuple& Cols2 , const char* GrayMatchMethod , Hlong MaskSize , Hlong RowMove , Hlong ColMove , Hlong RowTolerance , Hlong ColTolerance , double Rotation , Hlong MatchThreshold , const char* EstimationMethod , double DistanceThreshold , Hlong RandSeed , HTuple* Points1 , HTuple* Points2 ) const
HHomMat2D HImage ::ProjMatchPointsRansac (const HImage& Image2 , const HTuple& Rows1 , const HTuple& Cols1 , const HTuple& Rows2 , const HTuple& Cols2 , const wchar_t* GrayMatchMethod , Hlong MaskSize , Hlong RowMove , Hlong ColMove , Hlong RowTolerance , Hlong ColTolerance , double Rotation , Hlong MatchThreshold , const wchar_t* EstimationMethod , double DistanceThreshold , Hlong RandSeed , HTuple* Points1 , HTuple* Points2 ) const
(
Windows only)
HTuple HHomMat2D ::ProjMatchPointsRansac (const HImage& Image1 , const HImage& Image2 , const HTuple& Rows1 , const HTuple& Cols1 , const HTuple& Rows2 , const HTuple& Cols2 , const HString& GrayMatchMethod , Hlong MaskSize , Hlong RowMove , Hlong ColMove , Hlong RowTolerance , Hlong ColTolerance , const HTuple& Rotation , const HTuple& MatchThreshold , const HString& EstimationMethod , double DistanceThreshold , Hlong RandSeed , HTuple* Points2 )
HTuple HHomMat2D ::ProjMatchPointsRansac (const HImage& Image1 , const HImage& Image2 , const HTuple& Rows1 , const HTuple& Cols1 , const HTuple& Rows2 , const HTuple& Cols2 , const HString& GrayMatchMethod , Hlong MaskSize , Hlong RowMove , Hlong ColMove , Hlong RowTolerance , Hlong ColTolerance , double Rotation , Hlong MatchThreshold , const HString& EstimationMethod , double DistanceThreshold , Hlong RandSeed , HTuple* Points2 )
HTuple HHomMat2D ::ProjMatchPointsRansac (const HImage& Image1 , const HImage& Image2 , const HTuple& Rows1 , const HTuple& Cols1 , const HTuple& Rows2 , const HTuple& Cols2 , const char* GrayMatchMethod , Hlong MaskSize , Hlong RowMove , Hlong ColMove , Hlong RowTolerance , Hlong ColTolerance , double Rotation , Hlong MatchThreshold , const char* EstimationMethod , double DistanceThreshold , Hlong RandSeed , HTuple* Points2 )
HTuple HHomMat2D ::ProjMatchPointsRansac (const HImage& Image1 , const HImage& Image2 , const HTuple& Rows1 , const HTuple& Cols1 , const HTuple& Rows2 , const HTuple& Cols2 , const wchar_t* GrayMatchMethod , Hlong MaskSize , Hlong RowMove , Hlong ColMove , Hlong RowTolerance , Hlong ColTolerance , double Rotation , Hlong MatchThreshold , const wchar_t* EstimationMethod , double DistanceThreshold , Hlong RandSeed , HTuple* Points2 )
(
Windows only)
static void HOperatorSet .ProjMatchPointsRansac (HObject image1 , HObject image2 , HTuple rows1 , HTuple cols1 , HTuple rows2 , HTuple cols2 , HTuple grayMatchMethod , HTuple maskSize , HTuple rowMove , HTuple colMove , HTuple rowTolerance , HTuple colTolerance , HTuple rotation , HTuple matchThreshold , HTuple estimationMethod , HTuple distanceThreshold , HTuple randSeed , out HTuple homMat2D , out HTuple points1 , out HTuple points2 )
HHomMat2D HImage .ProjMatchPointsRansac (HImage image2 , HTuple rows1 , HTuple cols1 , HTuple rows2 , HTuple cols2 , string grayMatchMethod , int maskSize , int rowMove , int colMove , int rowTolerance , int colTolerance , HTuple rotation , HTuple matchThreshold , string estimationMethod , double distanceThreshold , int randSeed , out HTuple points1 , out HTuple points2 )
HHomMat2D HImage .ProjMatchPointsRansac (HImage image2 , HTuple rows1 , HTuple cols1 , HTuple rows2 , HTuple cols2 , string grayMatchMethod , int maskSize , int rowMove , int colMove , int rowTolerance , int colTolerance , double rotation , int matchThreshold , string estimationMethod , double distanceThreshold , int randSeed , out HTuple points1 , out HTuple points2 )
HTuple HHomMat2D .ProjMatchPointsRansac (HImage image1 , HImage image2 , HTuple rows1 , HTuple cols1 , HTuple rows2 , HTuple cols2 , string grayMatchMethod , int maskSize , int rowMove , int colMove , int rowTolerance , int colTolerance , HTuple rotation , HTuple matchThreshold , string estimationMethod , double distanceThreshold , int randSeed , out HTuple points2 )
HTuple HHomMat2D .ProjMatchPointsRansac (HImage image1 , HImage image2 , HTuple rows1 , HTuple cols1 , HTuple rows2 , HTuple cols2 , string grayMatchMethod , int maskSize , int rowMove , int colMove , int rowTolerance , int colTolerance , double rotation , int matchThreshold , string estimationMethod , double distanceThreshold , int randSeed , out HTuple points2 )
def proj_match_points_ransac (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, row_move : int, col_move : int, row_tolerance : int, col_tolerance : int, rotation : MaybeSequence[float], match_threshold : Union[int, float], estimation_method : str, distance_threshold : float, rand_seed : int) -> Tuple[Sequence[float], Sequence[int], Sequence[int]]
Description
Given a set of coordinates of characteristic points
(Cols1 Cols1 Cols1 Cols1 cols1 cols_1
,Rows1 Rows1 Rows1 Rows1 rows1 rows_1
) and
(Cols2 Cols2 Cols2 Cols2 cols2 cols_2
,Rows2 Rows2 Rows2 Rows2 rows2 rows_2
) in both input images
Image1 Image1 Image1 Image1 image1 image_1
and Image2 Image2 Image2 Image2 image2 image_2
,
proj_match_points_ransac proj_match_points_ransac ProjMatchPointsRansac ProjMatchPointsRansac ProjMatchPointsRansac proj_match_points_ransac
automatically determines
corresponding points and the homogeneous projective transformation
matrix HomMat2D HomMat2D HomMat2D HomMat2D homMat2D hom_mat_2d
that best transforms the corresponding
points from the different images into each other. The
characteristic points can, for example, be extracted with
points_foerstner points_foerstner PointsFoerstner PointsFoerstner PointsFoerstner points_foerstner
or points_harris points_harris PointsHarris PointsHarris PointsHarris points_harris
.
The transformation is determined 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.
The size of the mask windows is MaskSize MaskSize MaskSize MaskSize maskSize mask_size
x MaskSize MaskSize MaskSize MaskSize maskSize mask_size
. Three
metrics for the correlation can be selected. If
GrayMatchMethod GrayMatchMethod GrayMatchMethod GrayMatchMethod grayMatchMethod gray_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_disparity binocular_disparity BinocularDisparity BinocularDisparity BinocularDisparity binocular_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 MatchThreshold MatchThreshold MatchThreshold MatchThreshold matchThreshold match_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
matching operations can be limited. Only points within a window of
points are considered. The offset of the
center of the search window in the second image with respect to the
position of the current point in the first image is given by
RowMove RowMove RowMove RowMove rowMove row_move
and ColMove ColMove ColMove ColMove colMove col_move
.
If the transformation contains a rotation, i.e., if the first image
is rotated with respect to the second image, the parameter
Rotation Rotation Rotation Rotation rotation rotation
may contain an estimate for the rotation angle or
an angle interval in radians. A good guess will increase the quality
of the gray value matching. If the actual rotation differs too much
from the specified estimate the matching will typically fail. The
larger the given interval, the slower the operator is since the
entire algorithm is run for all relevant angles within the interval.
Once the initial matching is complete, a randomized search algorithm
(RANSAC) is used to determine the transformation matrix
HomMat2D HomMat2D HomMat2D HomMat2D homMat2D hom_mat_2d
. It tries to find the matrix that is consistent
with a maximum number of correspondences. For a point to be
accepted, its distance from the coordinates predicted by the
transformation must not exceed the threshold
DistanceThreshold DistanceThreshold DistanceThreshold DistanceThreshold distanceThreshold distance_threshold
.
Once a choice has been made, the matrix is further optimized using
all consistent points. For this optimization, the
EstimationMethod EstimationMethod EstimationMethod EstimationMethod estimationMethod estimation_method
can be chosen to either be the slow but
mathematically optimal 'gold_standard' "gold_standard" "gold_standard" "gold_standard" "gold_standard" "gold_standard" method or the faster
'normalized_dlt' "normalized_dlt" "normalized_dlt" "normalized_dlt" "normalized_dlt" "normalized_dlt" . Here, the algorithms of
vector_to_proj_hom_mat2d vector_to_proj_hom_mat2d VectorToProjHomMat2d VectorToProjHomMat2d VectorToProjHomMat2d vector_to_proj_hom_mat2d
are used.
Point pairs that still violate the consistency condition for the
final transformation are dropped, the matched points are returned as
control values. Points1 Points1 Points1 Points1 points1 points_1
contains the indices of the
matched input points from the first image, Points2 Points2 Points2 Points2 points2 points_2
contains
the indices of the corresponding points in the second image.
The parameter RandSeed RandSeed RandSeed RandSeed randSeed rand_seed
can be used to control the
randomized nature of the RANSAC algorithm, and hence to obtain
reproducible results. If RandSeed RandSeed RandSeed RandSeed randSeed rand_seed
is set to a positive
number, the operator yields the same result on every call with the
same parameters because the internally used random number generator
is initialized with the seed value. If RandSeed RandSeed RandSeed RandSeed randSeed rand_seed
=
0 , the random number generator is initialized with the
current time. Hence, the results may not be reproducible in this
case.
Execution Information
Multithreading type: reentrant (runs in parallel with non-exclusive operators).
Multithreading scope: global (may be called from any thread).
Processed without parallelization.
Parameters
Image1 Image1 Image1 Image1 image1 image_1
(input_object) singlechannelimage →
object HImage HObject HImage Hobject (byte / uint2)
Input image 1.
Image2 Image2 Image2 Image2 image2 image_2
(input_object) singlechannelimage →
object HImage HObject HImage Hobject (byte / uint2)
Input image 2.
Rows1 Rows1 Rows1 Rows1 rows1 rows_1
(input_control) point.x-array →
HTuple Sequence[Union[float, int]] HTuple Htuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Row coordinates of characteristic points
in image 1.
Cols1 Cols1 Cols1 Cols1 cols1 cols_1
(input_control) point.y-array →
HTuple Sequence[Union[float, int]] HTuple Htuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Column coordinates of characteristic points
in image 1.
Rows2 Rows2 Rows2 Rows2 rows2 rows_2
(input_control) point.x-array →
HTuple Sequence[Union[float, int]] HTuple Htuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Row coordinates of characteristic points
in image 2.
Cols2 Cols2 Cols2 Cols2 cols2 cols_2
(input_control) point.y-array →
HTuple Sequence[Union[float, int]] HTuple Htuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Column coordinates of characteristic points
in image 2.
GrayMatchMethod GrayMatchMethod GrayMatchMethod GrayMatchMethod grayMatchMethod gray_match_method
(input_control) string →
HTuple str HTuple Htuple (string) (string ) (HString ) (char* )
Gray value comparison metric.
Default:
'ssd'
"ssd"
"ssd"
"ssd"
"ssd"
"ssd"
List of values:
'ncc' "ncc" "ncc" "ncc" "ncc" "ncc" , 'sad' "sad" "sad" "sad" "sad" "sad" , 'ssd' "ssd" "ssd" "ssd" "ssd" "ssd"
MaskSize MaskSize MaskSize MaskSize maskSize mask_size
(input_control) integer →
HTuple int HTuple Htuple (integer) (int / long) (Hlong ) (Hlong )
Size of gray value masks.
Default:
10
Value range:
MaskSize
MaskSize
MaskSize
MaskSize
maskSize
mask_size
≤
90
RowMove RowMove RowMove RowMove rowMove row_move
(input_control) integer →
HTuple int HTuple Htuple (integer) (int / long) (Hlong ) (Hlong )
Average row coordinate shift.
Default:
0
ColMove ColMove ColMove ColMove colMove col_move
(input_control) integer →
HTuple int HTuple Htuple (integer) (int / long) (Hlong ) (Hlong )
Average column coordinate shift.
Default:
0
RowTolerance RowTolerance RowTolerance RowTolerance rowTolerance row_tolerance
(input_control) integer →
HTuple int HTuple Htuple (integer) (int / long) (Hlong ) (Hlong )
Half height of matching search window.
Default:
256
ColTolerance ColTolerance ColTolerance ColTolerance colTolerance col_tolerance
(input_control) integer →
HTuple int HTuple Htuple (integer) (int / long) (Hlong ) (Hlong )
Half width of matching search window.
Default:
256
Rotation Rotation Rotation Rotation rotation rotation
(input_control) real(-array) →
HTuple MaybeSequence[float] HTuple Htuple (real) (double ) (double ) (double )
Range of rotation angles.
Default:
0.0
Suggested values:
0.0, 0.7854, 1.571, 3.142
MatchThreshold MatchThreshold MatchThreshold MatchThreshold matchThreshold match_threshold
(input_control) number →
HTuple Union[int, float] HTuple Htuple (integer / real) (int / long / double) (Hlong / double) (Hlong / double)
Threshold for gray value matching.
Default:
10
Suggested values:
10, 20, 50, 100, 0.9, 0.7
EstimationMethod EstimationMethod EstimationMethod EstimationMethod estimationMethod estimation_method
(input_control) string →
HTuple str HTuple Htuple (string) (string ) (HString ) (char* )
Transformation matrix estimation algorithm.
Default:
'normalized_dlt'
"normalized_dlt"
"normalized_dlt"
"normalized_dlt"
"normalized_dlt"
"normalized_dlt"
List of values:
'gold_standard' "gold_standard" "gold_standard" "gold_standard" "gold_standard" "gold_standard" , 'normalized_dlt' "normalized_dlt" "normalized_dlt" "normalized_dlt" "normalized_dlt" "normalized_dlt"
DistanceThreshold DistanceThreshold DistanceThreshold DistanceThreshold distanceThreshold distance_threshold
(input_control) real →
HTuple float HTuple Htuple (real) (double ) (double ) (double )
Threshold for transformation consistency check.
Default:
0.2
RandSeed RandSeed RandSeed RandSeed randSeed rand_seed
(input_control) integer →
HTuple int HTuple Htuple (integer) (int / long) (Hlong ) (Hlong )
Seed for the random number generator.
Default:
0
HomMat2D HomMat2D HomMat2D HomMat2D homMat2D hom_mat_2d
(output_control) hom_mat2d →
HHomMat2D , HTuple Sequence[float] HTuple Htuple (real) (double ) (double ) (double )
Homogeneous projective transformation matrix.
Points1 Points1 Points1 Points1 points1 points_1
(output_control) integer-array →
HTuple Sequence[int] HTuple Htuple (integer) (int / long) (Hlong ) (Hlong )
Indices of matched input points in image 1.
Points2 Points2 Points2 Points2 points2 points_2
(output_control) integer-array →
HTuple Sequence[int] HTuple Htuple (integer) (int / long) (Hlong ) (Hlong )
Indices of matched input points in image 2.
Possible Predecessors
points_foerstner points_foerstner PointsFoerstner PointsFoerstner PointsFoerstner points_foerstner
,
points_harris points_harris PointsHarris PointsHarris PointsHarris points_harris
Possible Successors
projective_trans_image projective_trans_image ProjectiveTransImage ProjectiveTransImage ProjectiveTransImage projective_trans_image
,
projective_trans_image_size projective_trans_image_size ProjectiveTransImageSize ProjectiveTransImageSize ProjectiveTransImageSize projective_trans_image_size
,
projective_trans_region projective_trans_region ProjectiveTransRegion ProjectiveTransRegion ProjectiveTransRegion projective_trans_region
,
projective_trans_contour_xld projective_trans_contour_xld ProjectiveTransContourXld ProjectiveTransContourXld ProjectiveTransContourXld projective_trans_contour_xld
,
projective_trans_point_2d projective_trans_point_2d ProjectiveTransPoint2d ProjectiveTransPoint2d ProjectiveTransPoint2d projective_trans_point_2d
,
projective_trans_pixel projective_trans_pixel ProjectiveTransPixel ProjectiveTransPixel ProjectiveTransPixel projective_trans_pixel
Alternatives
hom_vector_to_proj_hom_mat2d hom_vector_to_proj_hom_mat2d HomVectorToProjHomMat2d HomVectorToProjHomMat2d HomVectorToProjHomMat2d hom_vector_to_proj_hom_mat2d
,
vector_to_proj_hom_mat2d vector_to_proj_hom_mat2d VectorToProjHomMat2d VectorToProjHomMat2d VectorToProjHomMat2d vector_to_proj_hom_mat2d
See also
proj_match_points_ransac_guided proj_match_points_ransac_guided ProjMatchPointsRansacGuided ProjMatchPointsRansacGuided ProjMatchPointsRansacGuided proj_match_points_ransac_guided
References
Richard Hartley, Andrew Zisserman: “Multiple View Geometry in
Computer Vision”; Cambridge University Press, Cambridge; 2000.
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