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I have an image with straight lines. I want to check if the lines are parallels using frequency domain. I'm doing fft on the image and i get the transform image.

Does anyone know how can i use the transform image for finding if the lines are parallel?

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Are you sure you need to use frequency domain? there are other methods like hough transform for this purpose. –  Abid Rahman K Jan 12 '13 at 15:45
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yes i know how to do it with hough tranform. i would like to find it with the trnaform image that i get from fft –  Noam Mizrachi Jan 12 '13 at 15:46
    
Noam, a sample image will help us understand the level of your question, that is, how clean the image is, is there any information about the lines besides the fact the they are or are not parallel, etc... –  bla Jan 12 '13 at 18:23
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assume there is no noise in the image. and assume that the image is the matrix were every cell is 0 besides the cells that represent the lines (thier cell value = 1) the lines can be either horizontal, vertical or oblique. –  Noam Mizrachi Jan 12 '13 at 18:34
    
Is this the same homework that was assigned to the asker at stackoverflow.com/questions/14293819/… ? –  mmgp Jan 12 '13 at 21:15

3 Answers 3

up vote 4 down vote accepted

So here are the two cases, using either some random angle or the same angle, of 2 lines of variable lengths, and their absolute value ffts. sample img

So there are many ways you can tell if they are parallel or not by looking on their fft, I'll give a hint in one of the easier directions, start from the center of the fft'ed image...

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Thanks, it's really helpful. I know that the fft is symmetric. but the line in the fft image is more thick then the lines in the original image. How can i run on the transform image and actually check it.? –  Noam Mizrachi Jan 13 '13 at 17:11

If you only have 2 lines than FFT is a bad idea. It is slow and complex.

The simplest implementation is to smooth the image. Calculate gradients angles (atan2(gradY,gradX)) and than just put them in histogram. If you have one clear peak - lines are parallel. Otherwise they are not. From the histogram you also know the angle of each line (local maximum represents a line).

The fastest running time would be using connected components style.

  1. Search the black image in a loop until you find a white pixel. This is a beggining of a line
  2. recursively traverse pixels neighbors until you find the most distant pixel. this is the end of the line
  3. When you know the starting point and the ending point you can calculate the slope of each line by atan2(endY-startY,endX-startX). Now you compare analytically the lines. If their slopes have difference of more than, say 0.1 of radians (5 degrees) in difference than lines are not regarded as parallel. This solution works for any amount of lines and it also gives the the list of all the pixels of each line + mathematical equation of the line as AX+BY+C = 0.

If you still insist on FFT I advise to rotate the original image or the FFT image so at least one line would be parallel to Y axis (FFT's representation is on X axis). Than it would be easy to check if the second line is parallel. If they are parallel than they are both aligned to y axis and than means that entire FFT transform lies on X axis. Just check that all the pixels of FFT above the few center rows are zeros. If not that means that lines are not parallel since the first line lies on X axis in FFT image and the second one goes up and down. P.s. I didn't explain how to rotate the image so at least one line aligns with Y axis. If you do it on the original image, just calculate the orientation (angle) of gradients, find the maximal value and rotate the image by (minus maximal value in degrees). On FFT image you can do the same, since two lines in the image still look like 2 lines in FFT.

Important note: Your questions got many inaccurate answers from other people. Here are some corrections

  1. Do not use Hough or Radon transform! It is relatively slow and is a complete overkill for your easy task of only 2 lines.
  2. When you use FFT you actually can know the location of the lines. Until now we used the amplitude image of FFT but there is also the phase image and the location of the lines is encoded in the phase image.

In concludion: I advise you to implement the solution I denoted as the fastest running time. If an image has N pixels you will do on average O(N) steps while only the FFT takes at least O(N*log(N)) steps.

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If you are interested in determining the periodicity of many equally spaced parallel lines, than it is OK to use FFT. In this case the FFT transformed image should give you a peak for the specific frequency. By thresholding you can also get rid of these lines in the image. However, you wont actually be finding where the lines are in the image.

For finding parallel lines, you can use other techniques such as:

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Thnaks for the answer. but how can i know the value for tresholding? –  Noam Mizrachi Jan 12 '13 at 16:37
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i don't want to to find the parallel lines. I just need to use the trandorm image to say if the lines are parallel or not. True or False. –  Noam Mizrachi Jan 12 '13 at 17:40

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