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I have an Image with many rectangles at different positions in the image and of different sizes (both overlapping and non-overlapping). I also have a non-negative scores associated with each of these rectangles.

My problem now is to find one rectangle *of a fixed (given) aspect ratio* that encloses as many of these rectangles as possible.

I am looking for an algorithm to do this, if anyone has a solution, even a partial one it would be helpful.

Please note that the positions of the rectangles in the image is fixed and cannot be moved around and there is no orientation issue as all of them are upright.


One of things to mention, which was not done before is that I would like to find the smallest rectangle which encloses as many rectangles in the image as possible.

share|improve this question
Is the difficulty here to calculate the size of the enclosing rectangle (minimal in size while containing all other rectangles) or the positioning (i.e. non-square enclosing rectangle on a square canvas)? – npst Oct 24 '13 at 14:54
it is in finding a rectangle that is satisfies two criteria: (1) to have a fixed aspect ratio, no matter what the canvas shape is (2) to include as many rectangles within it as possible. I don't know how to go about searching for such a rectangle. – Ramya Narasimha Oct 24 '13 at 16:17
To answer your question it is the size, that is, minimum size while enclosing as many possible rectangles and all the while maintaining the aspect ratio. – Ramya Narasimha Oct 24 '13 at 16:23

If there is no other restriction on enclosing rectangle, than it is the easiest to use as larger as possible rectangle. Because of aspect ratio request, that rectangle has one side as large as image, and other side is (probably) smaller than image. Rectangle is possible to position only by one coordinate (smaller side). It is enough to check all possible positions for that side. With sorting rectangles on same coordinate that search can be quite fast.

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Hey thanks Ante, The problem is searching for all position even if it by one side of the rectangle is quite expensive. I was wondering if there was any faster way to do it? Further more, if one side is as large as the image I won't get a minimum enclosing rectangle which is my goal. – Ramya Narasimha Oct 24 '13 at 16:04
Searching by one side is fast, but that is for sure maximal rectangle not minimal :-) Request 'smallest rectangle which encloses as many rectangles' isn't clear. Can you please be more specific about criteria. – Ante Oct 24 '13 at 22:10

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