I am now working on an eye tracking project. In this project I am tracking eyes in a webcam video (resolution if 640X480).

I can locate and track the eye in every frame, but I need to locate the pupil. I read a lot of papers and most of them refer to Alan Yuille's deformable template method to extract and track the eye features. Can anyone help me with the code of this method in any languages (matlab/OpenCV)?

I have tried with different thresholds, but due to the low resolution in the eye regions, it does not work very well. I will really appreciate any kind of help regarding finding pupil or even iris in the video.

Sample image

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    I think it will be difficult with that resolution. Can you upload one screenshot at imageshack.us and provide its link here? – Abid Rahman K May 11 '12 at 6:36
  • I do not know how to attach an image. Can you plz help me... – noname noname May 11 '12 at 7:17
  • You cannot do that yet, because you don't have enough reputation on this site. – user267885 May 11 '12 at 7:23
  • Thanks Tibor, I also tried some times ago to upload, but failed :( – noname noname May 11 '12 at 7:25
  • go to http://imageshack.us/. You can upload image there. Then give the link of your image here. – Abid Rahman K May 11 '12 at 8:40

What you need to do is to convert your webcam to a Near-Infrared Cam. There are plenty of tutorials online for that. Try this.

A Image taken from an NIR cam will look something like this -

enter image description here

You can use OpenCV then to threshold.

enter image description here

Then use the Erode function.

enter image description here

After this fill the image with some color takeing a corner as the seed point.

enter image description here

Eliminate the holes and invert the image.

enter image description here

Use the distance transform to the nearest non-zero value.

enter image description here

Find the max-value's coordinate and draw a circle.

enter image description here

  • Hi Anirudh, thanks for your answer. Problem is I can't use any infrared camera, or any other modified version of web cam. Only have to use a simple webcam. Anyway, thanks a lot. – noname noname Jul 9 '12 at 16:53
  • A regular webcam can be converted to a NIR can very easily. Refer the link mentioned above in answer. – Anirudh May 20 '15 at 21:53

If you're still working on this, check out my OptimEyes project: https://github.com/LukeAllen/optimeyes

It uses Python with OpenCV, and works fairly well with images from a 640x480 webcam. You can check out the "Theory Paper" and demo video on that page also. (It was a class project at Stanford earlier this year; it's not very polished but we made some attempts to comment the code.)


Depending on the application for tracking the pupil I would find a bounding box for the eyes and then find the darkest pixel within that box.

Some psuedocode:

box left_location = findlefteye()
box right_location = findrighteye()
image_matrix left = image[left_location]
image_matrix right = image[right_location]
image_matrix average = left + right
pixel min = min(average)
pixel left_pupil = left_location.corner + min
pixel right_pupil = right_location.corner + min
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    I tried with the darkest pixel. But the problem with this one is, some times the light is reflected on the iris, then pupil is no longer the darkest point. I don't know how to solve this problem. – noname noname May 11 '12 at 7:19
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    so it's sometimes the lightest and sometimes the darkest? You could find the most extreme point either using the absolute value of the gradient or by simply finding the max(abs(eye_image - mean(eye_image))) – vaebnkehn May 11 '12 at 15:22
  • Hi vaebnkehn, I tried this approach yesterday, but it did't work. :( – noname noname May 12 '12 at 15:24
  • Perhaps if you posted a few example images of eyes that would help. My only other thought would be to try to find the ring of colored pixels that are the iris and the center of that should be the pupil. I would look at the saturation channel in HSV space to find the iris. – vaebnkehn May 12 '12 at 19:28
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    Find all the white-ish pixels in the eye area. Label the regions and keep the two largest (these are the left and right whites of the eye). Find the centroid of each regon and then take the average of the two centroids. That point should be the pupil. – vaebnkehn Jun 6 '12 at 4:57

In the first answer suggested by Anirudth...
Just apply the HoughCirles function after thresholding function (2nd step).
Then you can directly draw the circles around the pupil and using radius(r) and center of eye(x,y) you can easily find out the Center of Eye..

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