disparity_image_to_xyzT_disparity_image_to_xyzDisparityImageToXyzDisparityImageToXyzdisparity_image_to_xyz (Operator)

Name

disparity_image_to_xyzT_disparity_image_to_xyzDisparityImageToXyzDisparityImageToXyzdisparity_image_to_xyz — Transform a disparity image into 3D points in a rectified stereo system.

Signature

disparity_image_to_xyz(Disparity : X, Y, Z : CamParamRect1, CamParamRect2, RelPoseRect : )

Description

Given the disparity image DisparityDisparityDisparityDisparitydisparitydisparity of a rectified binocular stereo system, disparity_image_to_xyzdisparity_image_to_xyzDisparityImageToXyzDisparityImageToXyzDisparityImageToXyzdisparity_image_to_xyz computes the corresponding 3D points. Their coordinates relative to the rectified camera 1 are stored as gray values in the images XXXXxx, YYYYyy, and ZZZZzz, i.e., the pixels at the position (Row,Column) in XXXXxx, YYYYyy, and ZZZZzz contain the x, y, and z coordinate, respectively, of the pixel (Row,Column) in the disparity image.

The rectified binocular camera system is specified by its internal camera parameters CamParamRect1CamParamRect1CamParamRect1CamParamRect1camParamRect1cam_param_rect_1 of the rectified camera 1 and CamParamRect2CamParamRect2CamParamRect2CamParamRect2camParamRect2cam_param_rect_2 of the rectified camera 2, and the external parameters RelPoseRectRelPoseRectRelPoseRectRelPoseRectrelPoseRectrel_pose_rect. The latter one is a pose in the form , thus it defines the relative pose of the rectified camera coordinate system 2 (ccsR2) relative to the rectified camera coordinate system 1 (ccsR1) (see Transformations / Poses and “Solution Guide III-C - 3D Vision”). These camera parameters can be obtained from the operators calibrate_camerascalibrate_camerasCalibrateCamerasCalibrateCamerasCalibrateCamerascalibrate_cameras and gen_binocular_rectification_mapgen_binocular_rectification_mapGenBinocularRectificationMapGenBinocularRectificationMapGenBinocularRectificationMapgen_binocular_rectification_map.

Attention

Stereo setups that contain cameras with and without hypercentric lenses at the same time are not supported.

Execution Information

Multithreading type: reentrant (runs in parallel with non-exclusive operators).
Multithreading scope: global (may be called from any thread).
Automatically parallelized on tuple level.
Automatically parallelized on domain level.

Parameters

DisparityDisparityDisparityDisparitydisparitydisparity (input_object) singlechannelimage(-array) → object (real)

Disparity image.

XXXXxx (output_object) singlechannelimage(-array) → object (real)

X coordinates of the points in the rectified camera system 1.

YYYYyy (output_object) singlechannelimage(-array) → object (real)

Y coordinates of the points in the rectified camera system 1.

ZZZZzz (output_object) singlechannelimage(-array) → object (real)

Z coordinates of the points in the rectified camera system 1.

CamParamRect1CamParamRect1CamParamRect1CamParamRect1camParamRect1cam_param_rect_1 (input_control) campar → (real / integer / string)

Internal camera parameters of the rectified camera 1.

CamParamRect2CamParamRect2CamParamRect2CamParamRect2camParamRect2cam_param_rect_2 (input_control) campar → (real / integer / string)

Internal camera parameters of the rectified camera 2.

RelPoseRectRelPoseRectRelPoseRectRelPoseRectrelPoseRectrel_pose_rect (input_control) pose → (real / integer)

Pose of the rectified camera 2 in relation to the rectified camera 1.

Number of elements: 7

Example (HDevelop)

disparity_image_to_xyz (ImageDisparity, ImgX, ImgY, ImgZ, RectCamParL, \
                        RectCamParR, RectLPosRectR)
get_region_points (ImageDisparity, Rows, Columns)
get_grayval (ImgX, Rows, Columns, XValues)
get_grayval (ImgY, Rows, Columns, YValues)
get_grayval (ImgZ, Rows, Columns, ZValues)