The Hough line transform witch is implemented in OpenCV can find the approximately line location (See the short lines in picture below).

Found lines using OpenCV

However, it can be seen in Hough transform explanation and OpenCV's explanation of function, it just finds the r and theta, which can't explain the short line locations.

Does Hough transform find anything more than r and theta which helps to find short line locations? How?

  • I suppose the visualization is the back projection of the valid votes. – LovaBill Dec 29 '14 at 15:08
  • @William, Excuse me; I can not understand you truly. Would you mind explain more? – Mohammad Etemaddar Dec 29 '14 at 18:49
  • 1
    You didn't study enough. OpenCV documentation code step 4b talks about a vector of lines with starting and ending points. Not theta and r. – LovaBill Dec 30 '14 at 8:52

Hough transformation and Probabilistic Hough Transformation sort of use the same technique for detecting lines i.e. both calculate r and theta values. The difference comes from the set of edge points that the algorithms use. The probabilistic method randomly samples from the set of all the edge points and uses them to detect lines, where as the standard technique uses all the edges points in the image.

Now to answer your question. In the probabilistic technique, we take any two points (x1,y1) and (x2,y2) from the set of randomly selected edge points and calculate (a,b) using these equations.

y1 = x1(a) + b

y2 = x2(a) + b

(a,b) pair essentially represents the line joining points (x1,y1) and (x2,y2). In the code we maintain a linked list which stores these (a,b) pairs and a count value associated with the pair. We calculate (a,b) values for all possible pairs from selected edge points. Since while calculating (a,b) we know which edge points were used, we can store this information which will later tell us exactly the points that contributed to the each line. Using this information we can compute the end points of each line in the image.

Reference: http://homepages.inf.ed.ac.uk/rbf/CVonline/LOCAL_COPIES/AV1011/macdonald.pdf

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