project_3d_pointT_project_3d_pointProject3dPointProject3dPointproject_3d_point (Operator)

Name

project_3d_pointT_project_3d_pointProject3dPointProject3dPointproject_3d_point — Project 3D points into (sub-)pixel image coordinates.

Signature

project_3d_point( : : X, Y, Z, CameraParam : Row, Column)

Herror T_project_3d_point(const Htuple X, const Htuple Y, const Htuple Z, const Htuple CameraParam, Htuple* Row, Htuple* Column)

void Project3dPoint(const HTuple& X, const HTuple& Y, const HTuple& Z, const HTuple& CameraParam, HTuple* Row, HTuple* Column)

void HCamPar::Project3dPoint(const HTuple& X, const HTuple& Y, const HTuple& Z, HTuple* Row, HTuple* Column) const

static void HOperatorSet.Project3dPoint(HTuple x, HTuple y, HTuple z, HTuple cameraParam, out HTuple row, out HTuple column)

void HCamPar.Project3dPoint(HTuple x, HTuple y, HTuple z, out HTuple row, out HTuple column)

def project_3d_point(x: Sequence[float], y: Sequence[float], z: Sequence[float], camera_param: Sequence[Union[int, float, str]]) -> Tuple[Sequence[float], Sequence[float]]

Description

project_3d_pointproject_3d_pointProject3dPointProject3dPointProject3dPointproject_3d_point projects one or more 3D points (with coordinates XXXXxx, YYYYyy, and ZZZZzz) into the image plane (in pixels) and returns the result in RowRowRowRowrowrow and ColumnColumnColumnColumncolumncolumn. The coordinates XXXXxx, YYYYyy, and ZZZZzz are given in the camera coordinate system, i.e., they describe the position of the points relative to the camera.

The internal camera parameters CameraParamCameraParamCameraParamCameraParamcameraParamcamera_param describe the projection characteristics of the camera (see Calibration for details).

Execution Information

Parameters

XXXXxx (input_control)  point3d.x-array HTupleSequence[float]HTupleHtuple (real) (double) (double) (double)

X coordinates of the 3D points to be projected in the camera coordinate system.

YYYYyy (input_control)  point3d.y-array HTupleSequence[float]HTupleHtuple (real) (double) (double) (double)

Y coordinates of the 3D points to be projected in the camera coordinate system.

ZZZZzz (input_control)  point3d.z-array HTupleSequence[float]HTupleHtuple (real) (double) (double) (double)

Z coordinates of the 3D points to be projected in the camera coordinate system.

CameraParamCameraParamCameraParamCameraParamcameraParamcamera_param (input_control)  campar HCamPar, HTupleSequence[Union[int, float, str]]HTupleHtuple (real / integer / string) (double / int / long / string) (double / Hlong / HString) (double / Hlong / char*)

Internal camera parameters.

RowRowRowRowrowrow (output_control)  point.y-array HTupleSequence[float]HTupleHtuple (real) (double) (double) (double)

Row coordinates of the projected points (in pixels).

ColumnColumnColumnColumncolumncolumn (output_control)  point.x-array HTupleSequence[float]HTupleHtuple (real) (double) (double) (double)

Column coordinates of the projected points (in pixels).

Example (HDevelop)

* Set internal camera parameters and pose of the world coordinate
* system in camera coordinates.
* Note that, typically, these values are the result of a prior
* calibration.
gen_cam_par_area_scan_division (0.01, -731, 5.2e-006, 5.2e-006, \
                                654, 519, 1280, 1024, CameraParam)
create_pose (0.1, 0.2, 0.3, 40, 50, 60, \
             'Rp+T', 'gba', 'point', WorldPose)
* Convert pose into transformation matrix.
pose_to_hom_mat3d(WorldPose, HomMat3D)
* Transform 3D points from world into the camera coordinate system.
affine_trans_point_3d(HomMat3D, [3.0, 3.2], [4.5, 4.5], [3.8, 4.2], X, Y, Z)
* Project 3D points into image.
project_3d_point(X, Y, Z, CameraParam, Row, Column)

Example (HDevelop)

* Set internal camera parameters and pose of the world coordinate
* system in camera coordinates.
* Note that, typically, these values are the result of a prior
* calibration.
gen_cam_par_area_scan_division (0.01, -731, 5.2e-006, 5.2e-006, \
                                654, 519, 1280, 1024, CameraParam)
create_pose (0.1, 0.2, 0.3, 40, 50, 60, \
             'Rp+T', 'gba', 'point', WorldPose)
* Convert pose into transformation matrix.
pose_to_hom_mat3d(WorldPose, HomMat3D)
* Transform 3D points from world into the camera coordinate system.
affine_trans_point_3d(HomMat3D, [3.0, 3.2], [4.5, 4.5], [3.8, 4.2], X, Y, Z)
* Project 3D points into image.
project_3d_point(X, Y, Z, CameraParam, Row, Column)

Example (C++)

HTuple WorldPose, HomMat3D, X1, Y1, Z1, X2, Y2, Z2;
HTuple CameraParam, Row, Column;
// Set internal camera parameters and pose of the world coordinate
// system in camera coordinates.
// Note that, typically, these values are the result of a prior
// calibration.
gen_cam_par_area_scan_division (0.01, -731, 5.2e-006, 5.2e-006,
                                654, 519, 1280, 1024, &CameraParam);
create_pose (0.1, 0.2, 0.3, 40, 50, 60,
             'Rp+T', 'gba', 'point', &WorldPose);
// Convert pose into transformation matrix.
pose_to_hom_mat3d(WorldPose, &HomMat3D);
// Transform 3D points from source into destination coordinate system.
X1[1] = 3.2;
X1[0] = 3.0;
Y1[1] = 4.5;
Y1[0] = 4.5;
Z1[1] = 4.2;
Z1[0] = 3.8;
affine_trans_point_3d(HomMat3D, X1, Y1, Z1, &X2, &Y2, &Z2);
// Project 3D points into image.
project_3d_point(X2, Y2, Z2, CameraParam, &Row, &Column);

Example (HDevelop)

* Set internal camera parameters and pose of the world coordinate
* system in camera coordinates.
* Note that, typically, these values are the result of a prior
* calibration.
gen_cam_par_area_scan_division (0.01, -731, 5.2e-006, 5.2e-006, \
                                654, 519, 1280, 1024, CameraParam)
create_pose (0.1, 0.2, 0.3, 40, 50, 60, \
             'Rp+T', 'gba', 'point', WorldPose)
* Convert pose into transformation matrix.
pose_to_hom_mat3d(WorldPose, HomMat3D)
* Transform 3D points from world into the camera coordinate system.
affine_trans_point_3d(HomMat3D, [3.0, 3.2], [4.5, 4.5], [3.8, 4.2], X, Y, Z)
* Project 3D points into image.
project_3d_point(X, Y, Z, CameraParam, Row, Column)

Example (HDevelop)

* Set internal camera parameters and pose of the world coordinate
* system in camera coordinates.
* Note that, typically, these values are the result of a prior
* calibration.
gen_cam_par_area_scan_division (0.01, -731, 5.2e-006, 5.2e-006, \
                                654, 519, 1280, 1024, CameraParam)
create_pose (0.1, 0.2, 0.3, 40, 50, 60, \
             'Rp+T', 'gba', 'point', WorldPose)
* Convert pose into transformation matrix.
pose_to_hom_mat3d(WorldPose, HomMat3D)
* Transform 3D points from world into the camera coordinate system.
affine_trans_point_3d(HomMat3D, [3.0, 3.2], [4.5, 4.5], [3.8, 4.2], X, Y, Z)
* Project 3D points into image.
project_3d_point(X, Y, Z, CameraParam, Row, Column)

Result

project_3d_pointproject_3d_pointProject3dPointProject3dPointProject3dPointproject_3d_point returns TRUE if all parameter values are correct. If necessary, an exception is raised.

Possible Predecessors

read_cam_parread_cam_parReadCamParReadCamParReadCamParread_cam_par, affine_trans_point_3daffine_trans_point_3dAffineTransPoint3dAffineTransPoint3dAffineTransPoint3daffine_trans_point_3d

Possible Successors

gen_region_pointsgen_region_pointsGenRegionPointsGenRegionPointsGenRegionPointsgen_region_points, gen_region_polygongen_region_polygonGenRegionPolygonGenRegionPolygonGenRegionPolygongen_region_polygon, disp_polygondisp_polygonDispPolygonDispPolygonDispPolygondisp_polygon

See also

camera_calibrationcamera_calibrationCameraCalibrationCameraCalibrationCameraCalibrationcamera_calibration, disp_caltabdisp_caltabDispCaltabDispCaltabDispCaltabdisp_caltab, read_cam_parread_cam_parReadCamParReadCamParReadCamParread_cam_par, get_line_of_sightget_line_of_sightGetLineOfSightGetLineOfSightGetLineOfSightget_line_of_sight, affine_trans_point_3daffine_trans_point_3dAffineTransPoint3dAffineTransPoint3dAffineTransPoint3daffine_trans_point_3d, image_points_to_world_planeimage_points_to_world_planeImagePointsToWorldPlaneImagePointsToWorldPlaneImagePointsToWorldPlaneimage_points_to_world_plane

Module

Calibration