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[This is my first post on this site, I'll try to be as complete as possible but forgive me if my problem statement is unclear or the code formatting is not up to standards]

I am trying to detect the largest possible rectangles in a maze environment, so I can use convex optimization methods for maintaining line-of-sight connectivity in the maze. This means any other convex shape would be fine as well, although I think rectangles are easiest to implement given the map I'm using (see below) This also means the rectangles can (and should) overlap, i.e. at each maze bend there should be at least 2 overlapping rectangles.

Maze1.png

My original idea was to determine all the edges in the maze, yielding a grid of rectangles, and then iteratively check which rectangles can be combined to form convex shapes (if there is a better way of finding these rectangles, I would love to hear it!).

The code I have thus far is shown below:

% import the maze image
I = imread('Maps/Maze1.png');

% determine edge cells using image dilation
se = strel('square',3);
I1 = imdilate(I,se);
BW = I1-I;

% obtain hough transform
[H, THETA, RHO] = hough(BW,'Theta',[-90 0]);
PEAKS = houghpeaks(H,5000,'Threshold',1e-6);        % threshold set low to find enough lines. Diagonals are deleted later
LINES = houghlines(BW, THETA, RHO, PEAKS);

% plot the original 'edge' image
subplot(2,1,1);
imshow(mat2gray(BW))
colormap('gray')
title('Original Image');

% plot the hough transform for reference
subplot(2,1,2);
imshow(imadjust(mat2gray(H)),'XData',THETA,'YData',RHO,...
      'InitialMagnification','fit');
title('Hough Transform of Image');
xlabel('\theta'), ylabel('\rho');
axis on, axis normal, hold on;
colormap(hot);

% plot the original image and all horizontal and vertical detected edges
figure;
imagesc(I);
colormap('gray')
hold on

for k = 1:length(LINES)
    xy = [LINES(k).point1; LINES(k).point2];
    plot(xy(:,1),xy(:,2),'LineWidth',2,'Color','green');
end

Although some edges are detected, most remain unmarked. Setting the peaks threshold lower didn't help. Does anyone know why the remaining edges aren't being detected? I've added the plots generated by my script below.

Edges and Hough Transform

Result of the edge detection:

Result of the edge detection

  • This is an interesting question, but maybe by tagging it only with the matlab tag you are narrowing your audience. Try to add more tags (maybe image processing?). – gire Aug 12 '14 at 15:47
  • thanks for the suggestion, added some more tags – Wouter Kuijsters Aug 12 '14 at 16:03
  • An image would really help. You should have enough rep now. – beaker Aug 13 '14 at 18:09
  • I've added some images from the problem and updated the problem description – Wouter Kuijsters Aug 16 '14 at 10:50
0

You can use the Hough transform for detecting straight lines. The functions you would have to use are edge(), hough(), houghpeaks(), and houghlines().

  • Thank you for the advice. The edge() function didn't work for me as edges are not always detected 'inside' the walls, but I fixed it by using imdilate() and substraction. – Wouter Kuijsters Aug 16 '14 at 10:50

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