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I am starting a projet with opencv to detect the snooker balls. Exact position and contours.

This is the balls:enter image description here

So far i experiment some algorithms with no luck. I will explain what i have done:

-HoughCircles: very bad. Even adjusting the paramters to the millimeter only a few balls are detected and the center of the ball is not detected with precision.

-Canny: I only can retrive the contours if the balls are not closed each ohter.

-Threshold by color HSV: The balls are not just one color. Bad.

Now i want experiment other algoritms like HaarCascadeDetection or SURF.

What you guys think?

Thanks :)

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3 Answers 3

I am not 100% that it would work, but give it a try. I think if camera doesn't move, you can accoumplish this by means of fast fourier transform. Please take a look at http://en.wikipedia.org/wiki/Convolution_theorem . What you should do:

  1. I assume camera doesn't move
  2. create a pattern image with a circle with same size as pic
  3. make 2d fourier transform of image and pic
  4. multiply transforms harmonix-by-harmonix
  5. make inverse transform
  6. find point that has highest intency
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Yes, the camera doesn't move. But what happens when one player shows up in the image? Or the lights intensity changes? –  Luis Carlos Dec 24 '12 at 20:15
Oh, in this case may be this is not very good solution. Then you should probably give more pictures, aren't you? I think you can improve my algorithm by extracting gradient from image first (so spots of balls would become circles and you should use not a spot pattern, but a circle pattern. I believe this problem is solvable this way. –  stiv Dec 24 '12 at 20:19

I think that the best option is to check whether to pixel color is in same range - use inrange function(note that it requires HSV image). Center of ball in this case is probably just a light reflection point(or somewhere very near to this point), which usually is the brightest point of the ball.

You may also try throwing out the table(threshold or inrange) and then analyzing all what is left.

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I dont think that work. The balls have more than 1 color. Light reflection are 1 solution IF the balls didnt have more than 1 color, again. I've tested your last solution but some balls are green like the table. –  Luis Carlos Dec 25 '12 at 1:59

I got some good results using just Hough circle transform (after playing with the parameters for awhile). I guess the trick is the combination of using a small enough param2 (to allow more detection) and restricting search radius (to filter out false positives).

circles = cv2.HoughCircles(img,cv2.cv.CV_HOUGH_GRADIENT,1,5, 

Also I removed the shadows, but I'm not sure if it's needed in your case. Here's some test results.

enter image description here

enter image description here

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