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Given a set of 2D points, how can I apply the opposite of undistortPoints ?

I have the camera intrinsics and distCoeffs and would like to (for example) create a square, and distort it as if the camera had viewed it through the lens.

I have found a 'distort' patch here : http://code.opencv.org/issues/1387 but it would seem this is only good for images, I want to work on sparse points.

Thanks

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A simple solution is to use initUndistortRectifyMap to obtain a map from undistorted coordinates to distorted ones:

cv::Mat K = ...; // 3x3 intrinsic parameters
cv::Mat D = ...; // 4x1 or similar distortion parameters
int W = 640; // image width
int H = 480; // image height

cv::Mat mapx, mapy;
cv::initUndistortRectifyMap(K, D, cv::Mat(), K, cv::Size(W, H), 
  CV_32F, mapx, mapy);

float distorted_x = mapx.at<float>(y, x);
float distorted_y = mapy.at<float>(y, x);

I edit to clarify the code is correct:

I cite the documentation of initUndistortRectifyMap:

for each pixel (u, v) in the destination (corrected and rectified) image, the function computes the corresponding coordinates in the source image (that is, in the original image from camera.

map_x(u,v) = x''f_x + c_x

map_y(u,v) = y''f_y + c_y

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Isn't this the reverse problem? – Hannes Ovrén Dec 26 '13 at 12:30
    
Mm I don't think so. The initUndistortRectifyMap function is usually used together with remap to undistort full images. According to the documentation of remap, the code should be right (I also use it like this). – ChronoTrigger Dec 26 '13 at 12:37
    
But the map tells how to go from distorted to undistorted image. And the question was how to get distorted from undistorted. – Hannes Ovrén Dec 26 '13 at 13:03
1  
I added a cite to the documentation of the function. I think I understand it correctly and that the returned maps index undistorted coordinates and return distorted ones. – ChronoTrigger Dec 26 '13 at 14:40
    
This answer to a related question expands a but further on this: stackoverflow.com/a/24231047/220338 – hyperspasm Sep 11 '15 at 4:29

This question is rather old but since I ended up here from a google search without seeing a neat answer I decided to answer it anyway.

There is a function called projectPoints that does exactly this. The C version is used internally by OpenCV when estimating camera parameters with functions like calibrateCamera and stereoCalibrate

EDIT: To use 2D points as input, we can set all z-coordinates to 1 with convertPointsToHomogeneous and use projectPoints with no rotation and no translation.

cv::Mat points2d = ...;
cv::Mat points3d;
cv::Mat distorted_points2d;
convertPointsToHomogeneous(points2d, points3d);
projectPoints(points3d, cv::Vec3f(0,0,0), cv::Vec3f(0,0,0), camera_matrix, dist_coeffs, distorted_points2d);
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1  
projectPoints actually projects 3D points onto 2D points by taking calibration into account, you don't get distorted points from undistorted 2D points. – ChronoTrigger Dec 26 '13 at 12:30
1  
Ah, thats true, sorry! – morotspaj Dec 26 '13 at 18:20
    
This ought to work, but the additional step of converting each of the 2d points into undistorted camera coordinates with the camera_intrinsics is required: x2 = (x - cx)/fx etc. (working on confirming this, could also use undistortPoints with zero distortion I think) – Lucas W Sep 30 '14 at 18:57

I have had exactly the same need. Here is a possible solution :

void MyDistortPoints(const std::vector<cv::Point2d> & src, std::vector<cv::Point2d> & dst, 
                     const cv::Mat & cameraMatrix, const cv::Mat & distorsionMatrix)
{
  dst.clear();
  double fx = cameraMatrix.at<double>(0,0);
  double fy = cameraMatrix.at<double>(1,1);
  double ux = cameraMatrix.at<double>(0,2);
  double uy = cameraMatrix.at<double>(1,2);

  double k1 = distorsionMatrix.at<double>(0, 0);
  double k2 = distorsionMatrix.at<double>(0, 1);
  double p1 = distorsionMatrix.at<double>(0, 2);
  double p2 = distorsionMatrix.at<double>(0, 3);
  double k3 = distorsionMatrix.at<double>(0, 4);
  //BOOST_FOREACH(const cv::Point2d &p, src)
  for (unsigned int i = 0; i < src.size(); i++)
  {
    const cv::Point2d &p = src[i];
    double x = p.x;
    double y = p.y;
    double xCorrected, yCorrected;
    //Step 1 : correct distorsion
    {     
      double r2 = x*x + y*y;
      //radial distorsion
      xCorrected = x * (1. + k1 * r2 + k2 * r2 * r2 + k3 * r2 * r2 * r2);
      yCorrected = y * (1. + k1 * r2 + k2 * r2 * r2 + k3 * r2 * r2 * r2);

      //tangential distorsion
      //The "Learning OpenCV" book is wrong here !!!
      //False equations from the "Learning OpenCv" book
      //xCorrected = xCorrected + (2. * p1 * y + p2 * (r2 + 2. * x * x)); 
      //yCorrected = yCorrected + (p1 * (r2 + 2. * y * y) + 2. * p2 * x);
      //Correct formulae found at : http://www.vision.caltech.edu/bouguetj/calib_doc/htmls/parameters.html
      xCorrected = xCorrected + (2. * p1 * x * y + p2 * (r2 + 2. * x * x));
      yCorrected = yCorrected + (p1 * (r2 + 2. * y * y) + 2. * p2 * x * y);
    }
    //Step 2 : ideal coordinates => actual coordinates
    {
      xCorrected = xCorrected * fx + ux;
      yCorrected = yCorrected * fy + uy;
    }
    dst.push_back(cv::Point2d(xCorrected, yCorrected));
  }


}

void MyDistortPoints(const std::vector<cv::Point2d> & src, std::vector<cv::Point2d> & dst, 
                     const cv::Matx33d & cameraMatrix, const cv::Matx<double, 1, 5> & distorsionMatrix)
{
  cv::Mat cameraMatrix2(cameraMatrix);
  cv::Mat distorsionMatrix2(distorsionMatrix);
  return MyDistortPoints(src, dst, cameraMatrix2, distorsionMatrix2);
}

void TestDistort()
{
  cv::Matx33d cameraMatrix = 0.;
  {
    //cameraMatrix Init
    double fx = 1000., fy = 950.;
    double ux = 324., uy = 249.;
    cameraMatrix(0, 0) = fx;
    cameraMatrix(1, 1) = fy;
    cameraMatrix(0, 2) = ux;
    cameraMatrix(1, 2) = uy;
    cameraMatrix(2, 2) = 1.;
  }


  cv::Matx<double, 1, 5> distorsionMatrix;
  {
    //distorsion Init
    const double k1 = 0.5, k2 = -0.5, k3 = 0.000005, p1 = 0.07, p2 = -0.05;

    distorsionMatrix(0, 0) = k1;
    distorsionMatrix(0, 1) = k2;
    distorsionMatrix(0, 2) = p1;
    distorsionMatrix(0, 3) = p2;
    distorsionMatrix(0, 4) = k3;
  }


  std::vector<cv::Point2d> distortedPoints;
  std::vector<cv::Point2d> undistortedPoints;
  std::vector<cv::Point2d> redistortedPoints;
  distortedPoints.push_back(cv::Point2d(324., 249.));// equals to optical center
  distortedPoints.push_back(cv::Point2d(340., 200));
  distortedPoints.push_back(cv::Point2d(785., 345.));
  distortedPoints.push_back(cv::Point2d(0., 0.));
  cv::undistortPoints(distortedPoints, undistortedPoints, cameraMatrix, distorsionMatrix);  
  MyDistortPoints(undistortedPoints, redistortedPoints, cameraMatrix, distorsionMatrix);
  cv::undistortPoints(redistortedPoints, undistortedPoints, cameraMatrix, distorsionMatrix);  

  //Poor man's unit test ensuring we have an accuracy that is better than 0.001 pixel
  for (unsigned int i = 0; i < undistortedPoints.size(); i++)
  {
    cv::Point2d dist = redistortedPoints[i] - distortedPoints[i];
    double norm = sqrt(dist.dot(dist));
    std::cout << "norm = " << norm << std::endl;
    assert(norm < 1E-3);
  }
}
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Hi Pascal, I have tried your code but it does not seems to work correctly. See here my question: stackoverflow.com/questions/21615298/opencv-distort-back – nkint Feb 7 '14 at 0:22

undistortPoint is simple reverse version of project points

In my case I would like to do these:

undistort points:

int undisortPoints(const vector<cv::Point2f> &uv, vector<cv::Point2f> &xy, const cv::Mat &M, const cv::Mat &d)
{
    cv::undistortPoints(uv, xy, M, d, cv::Mat(), M);
    return 0;
}

This will undistort the points to the very similar coordinate to the origin image, but without distotion. It's the default behavior of cv::undistort() function.

redistort points:

int distortPoints(const vector<cv::Point2f> &xy, vector<cv::Point2f> &uv, const cv::Mat &M, const cv::Mat &d)
{
    vector<cv::Point2f> xy2;
    vector<cv::Point3f>  xyz;
    cv::undistortPoints(xy, xy2, M, cv::Mat());
    for (cv::Point2f p : xy2)xyz.push_back(cv::Point3f(p.x, p.y, 1));
    cv::Mat rvec = cv::Mat::zeros(3, 1, CV_64FC1);
    cv::Mat tvec = cv::Mat::zeros(3, 1, CV_64FC1);
    cv::projectPoints(xyz, rvec, tvec, M, d, uv);
    return 0;
}

The little tricky thing here is first project the points to z=1 plane with a linear camera model. After that you project it with the original camera model.

I found these useful, I hope it also works for you.

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