Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I´m trying to find the corners on a image, I don´t need the contours, only the 4 corners. I will change the perspective using 4 corners.

I´m using Opencv, but I need to know the steps to find the corners and what function I will use.

My images will be like this:(without red points, I will paint the points after) enter image description here


After suggested steps, I writed the code: (Note: I´m not using pure OpenCv, I´m using javaCV, but the logic it´s the same).

// Load two images and allocate other structures (I´m using other image)
    IplImage colored = cvLoadImage(

enter image description here

    IplImage gray = cvCreateImage(cvGetSize(colored), IPL_DEPTH_8U, 1);
    IplImage smooth = cvCreateImage(cvGetSize(colored), IPL_DEPTH_8U, 1);

    //Step 1 - Convert from RGB to grayscale (cvCvtColor)
    cvCvtColor(colored, gray, CV_RGB2GRAY);

enter image description here

    //2 Smooth (cvSmooth)
    cvSmooth( gray, smooth, CV_BLUR, 9, 9, 2, 2); 

enter image description here

    //3 - cvThreshold  - What values?
    cvThreshold(gray,gray, 155, 255, CV_THRESH_BINARY);

enter image description here

    //4 - Detect edges (cvCanny) -What values?
    int N = 7;
    int aperature_size = N;
    double lowThresh = 20;
    double highThresh = 40;     
    cvCanny( gray, gray, lowThresh*N*N, highThresh*N*N, aperature_size );   

enter image description here

    //5 - Find contours (cvFindContours)
    int total = 0;
    CvSeq contour2 = new CvSeq(null);
    CvMemStorage storage2 = cvCreateMemStorage(0);
    CvMemStorage storageHull = cvCreateMemStorage(0);
    total = cvFindContours(gray, storage2, contour2, Loader.sizeof(CvContour.class), CV_RETR_CCOMP, CV_CHAIN_APPROX_NONE);
    if(total > 1){
          while (contour2 != null && !contour2.isNull()) {
              if (contour2.elem_size() > 0) {
                //6 - Approximate contours with linear features (cvApproxPoly)
                  CvSeq points = cvApproxPoly(contour2,Loader.sizeof(CvContour.class), storage2, CV_POLY_APPROX_DP,cvContourPerimeter(contour2)*0.005, 0);
                  cvDrawContours(gray, points,CvScalar.BLUE, CvScalar.BLUE, -1, 1, CV_AA);

              contour2 = contour2.h_next();


enter image description here

So, I want to find the cornes, but I don´t know how to use corners function like cvCornerHarris and others.

share|improve this question
OpenCV's "corner" functions don't find corners in the way you're thinking of -- roughly speaking, they find areas with significant horizontal and vertical variation. The goal of the corner functions in OpenCV is to find distinctive parts of the image that will be useful for visual tracking, which is not necessarily what we commonly think of as corners. – Josh Bleecher Snyder Sep 2 '11 at 21:29
The exact code at stackoverflow.com/a/14368605/1832154 (except the resizing part, since your image is small enough already) gives i.imgur.com/hMdAlHX.png – mmgp Jan 31 '13 at 3:33
up vote 20 down vote accepted

First, check out /samples/c/squares.c in your OpenCV distribution. This example provides a square detector, and it should be a pretty good start on how to detect corner-like features. Then, take a look at OpenCV's feature-oriented functions like cvCornerHarris() and cvGoodFeaturesToTrack().

The above methods can return many corner-like features - most will not be the "true corners" you are looking for. In my application, I had to detect squares that had been rotated or skewed (due to perspective). My detection pipeline consisted of:

  1. Convert from RGB to grayscale (cvCvtColor)
  2. Smooth (cvSmooth)
  3. Threshold (cvThreshold)
  4. Detect edges (cvCanny)
  5. Find contours (cvFindContours)
  6. Approximate contours with linear features (cvApproxPoly)
  7. Find "rectangles" which were structures that: had polygonalized contours possessing 4 points, were of sufficient area, had adjacent edges were ~90 degrees, had distance between "opposite" vertices was of sufficient size, etc.

Step 7 was necessary because a slightly noisy image can yield many structures that appear rectangular after polygonalization. In my application, I also had to deal with square-like structures that appeared within, or overlapped the desired square. I found the contour's area property and center of gravity to be helpful in discerning the proper rectangle.

share|improve this answer
I need a little help with step 7, how to use cvCornerHarris, with my example, see the edited post, can you help me? – Ricardo Sep 2 '11 at 20:00
Is cvSmooth something like a Gaussian blur? Do you dilate the result from cvCanny? How do you approximate contours with, let's say 5 corners (deformated square because of shadows etc.) or suqares with a little ridge. Your approach is pretty much what I want to do, but I am struggeling very hard. Can you provide some code examples? Would be very helpful. – sschrass Mar 12 '12 at 11:33

Try reading through this: http://sudokugrab.blogspot.com/2009/07/how-does-it-all-work.html

share|improve this answer
As a follow-up, and to slightly rehash the sudoku grab blog: Try finding the corners by way of finding the edges. Start with your thresholded image, find prominent straight lines (hough), and look for where they intersect. That's where your corners are. – Josh Bleecher Snyder Sep 2 '11 at 21:28

Apply houghlines to the canny image - you will get a list of points apply convex hull to this set of points

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.