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I'm working on an image classification project, I've extracted curved lines from image using edge-detection, and need to classify them based on their curvature.

For example in the image below there are 3 kinds of line, the left line has a good curvature, the middle one has a not-bad curvature, and the right line has a very-bad curvature.

curves

Thanks for your help

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I think you mean the left has good curvature? –  cdhowie Jun 25 '12 at 9:04
    
+1 interesting question. –  ArtemStorozhuk Jun 25 '12 at 9:05
    
@cdhowie: you'r right :) –  hamed Jun 25 '12 at 9:57

2 Answers 2

up vote 4 down vote accepted

I see few possible measures to clasify:

Try approximate line with some approx eps then check how many segments approximate line, less segments the better line is. (This can make problems in most left case, when line contains from few segments)

Check bounding box size, less size better line

Check convexity defects.

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it seams that convexity defects and line approximation are good way to find out what I want, but bounding box is not a good feature. –  hamed Jun 25 '12 at 10:56
    
@hamed I don't understand how approximation can help you. In left case curve contains many segments the same as right curve... –  ArtemStorozhuk Jun 25 '12 at 11:00
2  
@Astor you're right, but I'm think of another method. first using line approximation of points and then compute angle between each consecutive lines, in a straight line this angle for each consecutive lines is about 180, for good curves this angle should be between 160 and 180, and so on for bad curves –  hamed Jun 25 '12 at 11:10
    
@hamed ah, that's good! –  ArtemStorozhuk Jun 25 '12 at 11:10

If you are working with images, you can know whether a shape like the ones you've shown contain "smooth" or "sharp" edges. You can compute the eigenvalues and eigenvectors of the structural matrix (or image tensor matrix). For pixels belonging to a straight or smooth edge, one of the eigenvalues would be much larger than the other. In case the pixel is a corner or curvy point, both eigenvalues will probably be large and similar. Then I suggest to measure these features on the pixels of your shapes and train a classifier according to your needs.

You can find more details about such things almost elsewhere, although I can give you the reference of my own PhD, take a look to section 2.4.2 http://oa.upm.es/4837/1/MARCOS_NIETO_DONCEL.pdf

Best regards!

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