Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I've a binary image whose foreground is white. Out of the branchpoints and endpoints of its medial-axis skeleton, I would like to build a graph. Ideally, with the following structure:

  1. [nodes] having the format [ID X Y] where X,Y are the pixel locations of the branchpoints or endpoints, and ID is the node's ID - an integer number.
  2. [edges] having the format [ID N1 N2] where N1 and N1 represent the node's IDs.

By using both [nodes] and [edges] I'll have then a mapping of the skeleton into an undirected graph representation.

With the code below, I can compute the branch and endpoints, but now I need to connect them properly:

skelImg   = bwmorph(im, 'thin', 'inf');
branchImg = bwmorph(skelImg, 'branchpoints');
endImg    = bwmorph(skelImg, 'endpoints');

[row, column] = find(endImg);
endPts        = [row column];
[row, column] = find(branchImg);
branchPts     = [row column];

figure; imshow(skelImg); hold on; plot(branchPts(:,2),branchPts(:,1),'r*'); hold on; plot(endPts(:,2),endPts(:,1),'*');

An example of the input image (on the left), its skeleton (middle), and the corresponding branch- and end-points (right) is given below:

Or also in full resolution in the following url: http://imgur.com/a/a3s4F/

share|improve this question

2 Answers 2

up vote 1 down vote accepted

As the first step, I suggest using BFS variant. You nodes are white pixels, and there is an edge if the two pixels are neighbors. This will provide you a full graph with unneeded nodes, the points that are not branch-points/end-points.

Now, here is an important observation, each of the unneeded nodes contains exactly 2 edges, otherwise it would have been a branch-point or an end-point.

Thus, start removing all unneeded nodes recursively:

While there are nodes that are not branchpoints/endpoints
    Select one of these nodes.
    Merge its two edges into one by removing the node.
share|improve this answer

A possible solution consists in:

geting branched points (bp) from skeleton
geting edges : edges=skeleton-bp
geting end points from edges
adding branched points in a graph
geting endpoints neighbouring branched points and linking
adding remaining endpoints in the graph
linking endpoints

A python implementation with networkx yields: from skeleton of B to graph

share|improve this answer

protected by Community Jun 30 '13 at 21:55

Thank you for your interest in this question. Because it has attracted low-quality answers, posting an answer now requires 10 reputation on this site.

Would you like to answer one of these unanswered questions instead?

Not the answer you're looking for? Browse other questions tagged or ask your own question.