How can I obtain the corners of a quadrilateral in a binary image

I have the following binary image:

In this binary image, there is a quadrilateral. However, due to poor pre-processing, there are some intervals in the contour of the quadrilateral, and in other words the quadrilateral is not closed. Then my question is how can I obtain the corners of the quadrilateral. If I can obtain the corners, I can perform projective correction on the original image and obtain a image with geometric distortion. Any ideas will be appreciated. The illustration image can be downloaded from https://dl.dropboxusercontent.com/u/92688392/blob.jpg.

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The best way to do it is to

• first detect the different lines in your image (using for example Hough transform),
• keep the 4 ones that make up your quadrilateral (by geometric reasoning),
• finally compute their intersections.

This is also a classical way to implement chessboard corner detection in camera calibration routines by the way.

Why do I claim that it is the best? Because it can handle missing corners and noise on the corner positions, since fitting a line will "invent" missing points and average the error among the detected edge pixels. There is also some "old" (from the 80's or 90's) NASA-funded benchmark for camera calibration that backs up this claim, but it is very hard to find online (I was lucky enough to read a hard copy in one of my previous jobs).

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Thanks. Do you think it is a good idea to perform morphological skeleton before performing Hough transform? Or perform canny detector before Hough? I just want to let Hough transform analysis much easier by doing so. –  feelfree Oct 3 '13 at 9:34
No, I believe your actual binary image should be ok. –  sansuiso Oct 3 '13 at 11:00