image_points_to_world_planeT_image_points_to_world_planeImagePointsToWorldPlaneImagePointsToWorldPlaneimage_points_to_world_plane (Operator)

Name

image_points_to_world_planeT_image_points_to_world_planeImagePointsToWorldPlaneImagePointsToWorldPlaneimage_points_to_world_plane — Transform image points into the plane z=0 of a world coordinate system.

Signature

image_points_to_world_plane( : : CameraParam, WorldPose, Rows, Cols, Scale : X, Y)

Description

The operator image_points_to_world_planeimage_points_to_world_planeImagePointsToWorldPlaneImagePointsToWorldPlaneImagePointsToWorldPlaneimage_points_to_world_plane transforms image points which are given in RowsRowsRowsRowsrowsrows and ColsColsColsColscolscols into the plane z=0 in a world coordinate system and returns their 3D coordinates in XXXXxx and YYYYyy. The world coordinate system is chosen by passing its pose relative to the camera coordinate system in WorldPoseWorldPoseWorldPoseWorldPoseworldPoseworld_pose. Hence, latter one is expected in the form , where ccs denotes the camera coordinate system and wcs the world coordinate system (see Transformations / Poses and “Solution Guide III-C - 3D Vision”). In CameraParamCameraParamCameraParamCameraParamcameraParamcamera_param you must pass the internal camera parameters (see Calibration for the sequence of the parameters and the underlying camera model).

In many cases CameraParamCameraParamCameraParamCameraParamcameraParamcamera_param and WorldPoseWorldPoseWorldPoseWorldPoseworldPoseworld_pose are the result of calibrating the camera with the operator calibrate_camerascalibrate_camerasCalibrateCamerasCalibrateCamerasCalibrateCamerascalibrate_cameras. See below for an example.

With the parameter ScaleScaleScaleScalescalescale you can scale the resulting 3D coordinates. The parameter ScaleScaleScaleScalescalescale must be specified as the ratio desired unit/original unit. The original unit is determined by the coordinates of the calibration object. If the original unit is meters (which is the case if you use the standard calibration plate), you can set the desired unit directly by selecting 'm'"m""m""m""m""m", 'cm'"cm""cm""cm""cm""cm", 'mm'"mm""mm""mm""mm""mm" or 'um'"um""um""um""um""um" for the parameter ScaleScaleScaleScalescalescale.

Internally, the operator first computes the line of sight between the projection center and the image contour points in the camera coordinate system, taking into account the radial distortions. The line of sight is then transformed into the world coordinate system specified in WorldPoseWorldPoseWorldPoseWorldPoseworldPoseworld_pose. By intersecting the plane z=0 with the line of sight the 3D coordinates XXXXxx and YYYYyy are obtained.

It is recommended to use only those image points RowsRowsRowsRowsrowsrows and ColsColsColsColscolscols, that lie within the calibrated image size. The mathematical model does only work well for image points, that lie within the calibration range.

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

CameraParamCameraParamCameraParamCameraParamcameraParamcamera_param (input_control) campar → (real / integer / string)

Internal camera parameters.

WorldPoseWorldPoseWorldPoseWorldPoseworldPoseworld_pose (input_control) pose → (real / integer)

3D pose of the world coordinate system in camera coordinates.

Number of elements: 7

RowsRowsRowsRowsrowsrows (input_control) coordinates.y-array → (real / integer)

Row coordinates of the points to be transformed.

Default value: 100.0

ColsColsColsColscolscols (input_control) coordinates.x-array → (real / integer)

Column coordinates of the points to be transformed.

Default value: 100.0

ScaleScaleScaleScalescalescale (input_control) number → (string / integer / real)

Scale or dimension

Default value: 'm' "m" "m" "m" "m" "m"

Suggested values: 'm'"m""m""m""m""m", 'cm'"cm""cm""cm""cm""cm", 'mm'"mm""mm""mm""mm""mm", 'microns'"microns""microns""microns""microns""microns", 'um'"um""um""um""um""um", 1.0, 0.01, 0.001, 1.0e-6, 0.0254, 0.3048, 0.9144

Restriction: Scale > 0

XXXXxx (output_control) coordinates.x-array → (real)

X coordinates of the points in the world coordinate system.

YYYYyy (output_control) coordinates.y-array → (real)

Y coordinates of the points in the world coordinate system.

Example (HDevelop)

*  Perform camera calibration (with standard calibration plate).
calibrate_cameras (CalibDataID, Error)
get_calib_data (CalibDataID, 'camera', 0, 'params', CamParam)
* Get reference pose (pose 2 of calibration object 0).
get_calib_data (CalibDataID, 'calib_obj_pose',\
                [0,2], 'pose', WorldPose)
*  Compensate thickness of plate.
set_origin_pose(ObjInCameraPose, 0, 0, 0.0006, WorldPose)
*  Transform image points into world coordinate system (unit mm).
image_points_to_world_plane(CamParam, WorldPose, PointRows, PointColumns, \
                            'mm', PointXCoord, PointYCoord)

Result

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

Possible Predecessors

create_posecreate_poseCreatePoseCreatePoseCreatePosecreate_pose, hom_mat3d_to_posehom_mat3d_to_poseHomMat3dToPoseHomMat3dToPoseHomMat3dToPosehom_mat3d_to_pose, camera_calibrationcamera_calibrationCameraCalibrationCameraCalibrationCameraCalibrationcamera_calibration, hand_eye_calibrationhand_eye_calibrationHandEyeCalibrationHandEyeCalibrationHandEyeCalibrationhand_eye_calibration, set_origin_poseset_origin_poseSetOriginPoseSetOriginPoseSetOriginPoseset_origin_pose

Module

Calibration

Operators