# reprojectImageTo3D() in OpenCV

I've been trying to compute real world coordinates of points from a disparity map using the reprojectImageTo3D() function provided by OpenCV, but the output seems to be incorrect.

I have the calibration parameters, and compute the Q matrix using

`stereoRectify(left_cam_matrix, left_dist_coeffs, right_cam_matrix, right_dist_coeffs, frame_size, stereo_params.R, stereo_params.T, R1, R2, P1, P2, Q, CALIB_ZERO_DISPARITY, 0, frame_size, 0, 0);`

I believe this first step is correct, since the stereo frames are being rectified properly, and the distortion removal I'm performing also seems all right. The disparity map is being computed with OpenCV's block matching algorithm, and it looks good too.

The 3D points are being calculated as follows:

```cv::Mat XYZ(disparity8U.size(),CV_32FC3); reprojectImageTo3D(disparity8U, XYZ, Q, false, CV_32F);```

But for some reason they form some sort of cone, and are not even close to what I'd expect, considering the disparity map. I found out that other people had a similar problem with this function, and I was wondering if someone has the solution.

Thanks in advance!

[EDIT]

``````stereoRectify(left_cam_matrix, left_dist_coeffs, right_cam_matrix, right_dist_coeffs,frame_size, stereo_params.R, stereo_params.T, R1, R2, P1, P2, Q, CALIB_ZERO_DISPARITY, 0, frame_size, 0, 0);

initUndistortRectifyMap(left_cam_matrix, left_dist_coeffs, R1, P1, frame_size,CV_32FC1, left_undist_rect_map_x, left_undist_rect_map_y);
initUndistortRectifyMap(right_cam_matrix, right_dist_coeffs, R2, P2, frame_size, CV_32FC1, right_undist_rect_map_x, right_undist_rect_map_y);
cv::remap(left_frame, left_undist_rect, left_undist_rect_map_x, left_undist_rect_map_y, CV_INTER_CUBIC, BORDER_CONSTANT, 0);
cv::remap(right_frame, right_undist_rect, right_undist_rect_map_x, right_undist_rect_map_y, CV_INTER_CUBIC, BORDER_CONSTANT, 0);

cv::Mat imgDisparity32F = Mat( left_undist_rect.rows, left_undist_rect.cols, CV_32F );
StereoBM sbm(StereoBM::BASIC_PRESET,80,5);
sbm.state->preFilterSize  = 15;
sbm.state->preFilterCap   = 20;
sbm.state->SADWindowSize  = 11;
sbm.state->minDisparity   = 0;
sbm.state->numberOfDisparities = 80;
sbm.state->textureThreshold = 0;
sbm.state->uniquenessRatio = 8;
sbm.state->speckleWindowSize = 0;
sbm.state->speckleRange = 0;

// Compute disparity
sbm(left_undist_rect, right_undist_rect, imgDisparity32F, CV_32F );

// Compute world coordinates from the disparity image
cv::Mat XYZ(disparity32F.size(),CV_32FC3);
reprojectImageTo3D(disparity32F, XYZ, Q, false, CV_32F);
print_3D_points(disparity32F, XYZ);
``````

[EDIT]

Adding the code used to compute 3D coords from disparity:

``````cv::Vec3f *StereoFrame::compute_3D_world_coordinates(int row, int col,
shared_ptr<StereoParameters> stereo_params_sptr){

cv::Mat Q_32F;

stereo_params_sptr->Q_sptr->convertTo(Q_32F,CV_32F);
cv::Mat_<float> vec(4,1);

vec(0) = col;
vec(1) = row;
vec(2) = this->disparity_sptr->at<float>(row,col);

// Discard points with 0 disparity
if(vec(2)==0) return NULL;
vec(3)=1;
vec = Q_32F*vec;
vec /= vec(3);
// Discard points that are too far from the camera, and thus are highly
// unreliable
if(abs(vec(0))>10 || abs(vec(1))>10 || abs(vec(2))>10) return NULL;

cv::Vec3f *point3f = new cv::Vec3f();
(*point3f) = vec(0);
(*point3f) = vec(1);
(*point3f) = vec(2);

return point3f;
}
``````
• Can you show the disparity map you obtained and the parameters you gave to the stereo block matching algorithm ? – BConic Mar 15 '14 at 8:36
• Sure, you can see the left frame and the disparity here: postimg.org/image/yuimlj5u7 And these are the parameters I use to compute disparity: StereoBM sbm(StereoBM::BASIC_PRESET,80,5); sbm.state->preFilterSize=15; sbm.state->preFilterCap=20; sbm.state->SADWindowSize=11; sbm.state->minDisparity=0; sbm.state->numberOfDisparities=80; sbm.state->textureThreshold=0; sbm.state->uniquenessRatio=8; sbm.state->speckleWindowSize=0; sbm.state->speckleRange=0; – edu_ Mar 15 '14 at 14:09
• You're right the disparity map seems OK. Could the cone shape when reprojected to 3D be due to the noise in the disparity map ? Can you show what you get in 3D ? – BConic Mar 15 '14 at 14:52
• Hi, thanks for you help so far! The 3D points can be seen here: postimg.org/image/9lunzg917 . Also, as I said in the post, there are many people with the exact same issue. Here is the link to one of the discussion forums where they posted their problem (opencv-users.1802565.n2.nabble.com/…), in case you want more datails. Do you think this might be related to the format of the disparity image? the StereoBM algorithm returns a CV_16S image, and I'm converting it to CV_8U. This is how I do the conversion: – edu_ Mar 15 '14 at 15:05
• double minVal; double maxVal; minMaxLoc( imgDisparity16S, &minVal, &maxVal ); imgDisparity16S.convertTo( imgDisparity8U, CV_8UC1, 255/(maxVal - minVal)); – edu_ Mar 15 '14 at 15:05

## 1 Answer

Your code seems fine to me. It could be a bug with the `reprojectImageTo3D`. Try to replace it with the following code (which has the same role):

``````cv::Mat_<cv::Vec3f> XYZ(disparity32F.rows,disparity32F.cols);   // Output point cloud
cv::Mat_<float> vec_tmp(4,1);
for(int y=0; y<disparity32F.rows; ++y) {
for(int x=0; x<disparity32F.cols; ++x) {
vec_tmp(0)=x; vec_tmp(1)=y; vec_tmp(2)=disparity32F.at<float>(y,x); vec_tmp(3)=1;
vec_tmp = Q*vec_tmp;
vec_tmp /= vec_tmp(3);
cv::Vec3f &point = XYZ.at<cv::Vec3f>(y,x);
point = vec_tmp(0);
point = vec_tmp(1);
point = vec_tmp(2);
}
}
``````

I never used `reprojectImageTo3D`, however I am using successfully code similar to the snippet above.

[Initial answer]

As it is explained in the documentation for `StereoBM`, if you request a `CV_16S` disparity map, you have to divide each disparity value by 16 before using them.

Hence, you should convert the disparity map as follows before using it:

``````imgDisparity16S.convertTo( imgDisparity32F, CV_32F, 1./16);
``````

You can also directly request a `CV_32F` disparity map from the StereoBM structure, in which case you directy get the true disparities.

• Thanks again for you fast reply! I tried to use both methods, but the results are still strange: postimg.org/image/w97qfoq0h – edu_ Mar 15 '14 at 15:33
• OK, can you then edit your post and show the code you are using (eveything between `stereoRectify` and `reprojectImageTo3D`) ? – BConic Mar 15 '14 at 15:36
• after many hours spent and a lot of tweaking, I've finally managed to generate the seemingly correct (or at least coeherent) point cloud from the stereo pair. Here is the screenshot of the first reasonable result: postimg.org/image/pfv25ppkx. You can see that the points seem flipped when compared to the image, so I used the -T instead of T (translation vector obtained from the calibration)available at github.com/lessthanoptimal/BoofCV-Data/tree/master/applet/…, and got the following result: postimg.org/image/p8pnn7pel ... – edu_ Mar 16 '14 at 15:46
• [UPDATE] It seems that the flip on the point cloud is actually a flaw in the PCL visualizer (See pcl-users.org/Flipped-point-clouds-in-visualizer-td4021086.html and github.com/PointCloudLibrary/pcl/issues/116) – edu_ Mar 16 '14 at 16:18
• @Daniel-Lee I edited the question to add the code used to get 3D coordinates from the disparity image (note that it's based on previous answers, but I've added some validity checks). I think you can easily adapt it to your needs and use it instead of OpenCV's function. Hope it helps! – edu_ May 5 '14 at 19:42