Opencv, calculate distance at pixel from depth mat

Question

I have a disparity image created with a calibrated stereo camera pair and opencv. It looks good, and my calibration data is good.

I need to calculate the real world distance at a pixel.

From other questions on stackoverflow, i see that the approach is:

depth = baseline * focal / disparity

Using the function:

setMouseCallback("disparity", onMouse, &disp); 

static void onMouse(int event, int x, int y, int flags, void* param)
{
    cv::Mat &xyz = *((cv::Mat*)param); //cast and deref the param
    if (event == cv::EVENT_LBUTTONDOWN)
    {
        unsigned int val = xyz.at<uchar>(y, x);

        double depth = (camera_matrixL.at<float>(0, 0)*T.at<float>(0, 0)) / val;

        cout << "x= " << x << " y= " << y << " val= " << val << " distance: " << depth<< endl;
    }
}

I click on a point that i have measured to be 3 meters away from the stereo camera. What i get is:

val= 31 distance: 0.590693

The depth mat values are between 0 and 255, the depth mat is of type 0, or CV_8UC1. The stereo baseline is 0.0643654 (in meters). The focal length is 284.493

I have also tried: (from OpenCV - compute real distance from disparity map)

float fMaxDistance = static_cast<float>((1. / T.at<float>(0, 0) * camera_matrixL.at<float>(0, 0)));
//outputDisparityValue is single 16-bit value from disparityMap
float fDisparity = val / (float)cv::StereoMatcher::DISP_SCALE;
float fDistance = fMaxDistance / fDisparity;

which gives me a (closer to truth, if we assume mm units) distance of val= 31 distance: 2281.27 But is still incorrect.

Which of these approaches is correct? And where am i going wrong?

Left, Right, Depth map. (EDIT: this depth map is from a different pair of images)

EDIT: Based on an answer, i am trying this:

`std::vector pointcloud;

float fx = 284.492615;
float fy = 285.683197;
float cx = 424;// 425.807709;
float cy = 400;// 395.494293;

cv::Mat Q = cv::Mat(4,4, CV_32F);
Q.at<float>(0, 0) = 1.0;
Q.at<float>(0, 1) = 0.0;
Q.at<float>(0, 2) = 0.0;
Q.at<float>(0, 3) = -cx; //cx
Q.at<float>(1, 0) = 0.0;
Q.at<float>(1, 1) = 1.0;
Q.at<float>(1, 2) = 0.0;
Q.at<float>(1, 3) = -cy;  //cy
Q.at<float>(2, 0) = 0.0;
Q.at<float>(2, 1) = 0.0;
Q.at<float>(2, 2) = 0.0;
Q.at<float>(2, 3) = -fx;  //Focal
Q.at<float>(3, 0) = 0.0;
Q.at<float>(3, 1) = 0.0;
Q.at<float>(3, 2) = -1.0 / 6;    //1.0/BaseLine
Q.at<float>(3, 3) = 0.0;    //cx - cx'

//
cv::Mat XYZcv(depth_image.size(), CV_32FC3);
reprojectImageTo3D(depth_image, XYZcv, Q, false, CV_32F);

for (int y = 0; y < XYZcv.rows; y++)
{
    for (int x = 0; x < XYZcv.cols; x++)
    {
        cv::Point3f pointOcv = XYZcv.at<cv::Point3f>(y, x);

        Eigen::Vector4d pointEigen(0, 0, 0, left.at<uchar>(y, x) / 255.0);
        pointEigen[0] = pointOcv.x;
        pointEigen[1] = pointOcv.y;
        pointEigen[2] = pointOcv.z;

        pointcloud.push_back(pointEigen);

    }
}`

And that gives me a cloud.

Answer 1

To find the point-based depth of an object from the camera, use the following formula:

Depth = (Baseline x Focallength)/disparity

I hope you are using it correctly as per your question.

Try the below nerian calculator for the therotical error.

https://nerian.com/support/resources/calculator/

Also, use sub-pixel interpolation in your code.

Make sure object you are identifying for depth should have good texture.

The most common problems with depth maps are:

1. Untextured surfaces (plain object)
2. Calibration results are bad.

What is the RMS value for your calibration, camera resolution, and lens type(focal length)? This is important to provide much better data for your program.

Answer 2

I would recommend to use reprojectImageTo3D of OpenCV to reconstruct the distance from the disparity. Note that when using this function you indeed have to divide by 16 the output of StereoSGBM. You should already have all the parameters f, cx, cy, Tx. Take care to give f and Tx in the same units. cx, cy are in pixels. Since the problem is that you need the Q matrix, I think that this link or this one should help you to build it. If you don't want to use reprojectImageTo3D I strongly recommend the first link!

I hope this helps!