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i am looking for a algorithm that will generate a concave polygon (with N points where N > 3 - user enters this value) from a image.

My idea for the algorithm:

 // Every pixel in image is checked and a minimal orientated bounding box  is generated  (transparent pixels are ignored)
 boundingBox = createImageBoundingBox(image);
 curpoints = 4, A = 0, B = 1, tmppoints = curpoints;
 while(curpoints < maxNumberOfPoints)
 { 
    add a new point between point A and point B (A and B are points from the boundingBox)
    reposition points so that it will contain the minimal surface
    A++; B++;
    curpoints++;

    if(A == tmppoints) 
    { A = 0; B = 1; tmppoints=curpoints; }
 }  

The problem im facing is i dont know how to optimally reposition points. Can this be done any other (better/faster way). Would appreciate any thoughts.

Thanks

EDIT:

The image has to be at least 10x10. I need the N points parameter so the user can regulate how many points are going to be used (for optimization). An alternative would be to have a factor (0-1) which tells how much detailed (how many points) you want the polygon to have (0 being 4 points, > 0 5 or more points). But not sure how to implement it.

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Is this always possible? What if my image is a single pixel tall and 200 pixels wide? This case seems like it would generate a line. I'm looking up the different definitions of 'polygon' and 'concave polygon' and I'm not seeing any definitions for this pathological case. –  Brian Stinar Apr 27 '12 at 18:39
    
image has to be bigger than 100x100. mathworld.wolfram.com/ConcavePolygon.html. Not really sure if there is any difference but i have found a couple of algorithms that work only for convex polygons. –  blejzz Apr 27 '12 at 18:44

3 Answers 3

up vote 1 down vote accepted

Concave hull may be built with alpha shapes. CGAL link.

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You can use a delaunay triangulation and get the average edge lenght. Then try to remove edges that are longer then the average. The concept is from the alpha shapes.

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1.) Select a point in the middle of the square image.

2.) Jitter this point N times randomly from the center to generate N new points.

3.) Sort these points based on maximum angle from the center point

4.) Use your four points in your bounding box and your midpoint(s) in sorted ascending angle order to create the ordered point list of your concave polygon.

I am not sure if I understand your 'minimal surface' step above, but I believe this algorithm will work for taking a cut out of image to generate a concave polygon. I think this is faster than your above, but I am not sure because I don't understand that step fully.

This will always generate a concave polygon with the same bounds as your original image. If you don't want this, you could add a step 0.) that jitters your bounding box, and then changes your midpoint jitter based on this. Both of these ideas will result in a bounding quadrilateral with a n-sized point chunk taken out, I think.

  • This requires n > 4 (collapse two of you bounding box points into one if you want this to require n > 3, like you said you want.)
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dont understand your solution. The algorithm has to generate a polygon with only N points from the image outline (another polygon) so that it will still cover all the image shape. To simplify it: you have some 2d shape (lets say the shape is shaped like letter A) and you have N points. How to place these points around (or on) the shape so they will still cover all the letter A surface and also keep the enclosed suraface at minimum. –  blejzz Apr 27 '12 at 23:02
    
Ohhhh... You want your resulting concave polygon to fully cover the image, but result in a minimum surface area? My solution sucks then. I think this is a computer vision problem - you need to identify your shape first. –  Brian Stinar Apr 27 '12 at 23:08
    
more of a math problem, you have to remove points from the initial polygon until you reach the limit. –  blejzz Apr 27 '12 at 23:16

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