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I am currently looking for a way to fit a simple shape (e.g. a T or an L shape) to a 2D point cloud. What I need as a result is the position and orientation of the shape.

I have been looking at a couple of approaches but most seem very complicated and involve building and learning a sample database first. As I am dealing with very simple shapes I was hoping that there might be a simpler approach.

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2 Answers 2

By saying you don't want to do any training I am guessing that you mean you don't want to do any feature matching; feature matching is used to make good guesses about the pose (location and orientation) of the object in the image, and would be applicable along with RANSAC to your problem for guessing and verifying good hypotheses about object pose.

The simplest approach is template matching, but this may be too computationally complex (it depends on your use case). In template matching you simply loop over the possible locations of the object and its possible orientations and possible scales and check how well the template (a cloud that looks like an L or a T at that location and orientation and scale) matches (or you sample possible locations orientations and scales randomly). The checking of the template could be made fairly fast if your points are organised (or you organise them by e.g. converting them into pixels).

If this is too slow there are many methods for making template matching faster and I would recommend to you the Generalised Hough Transform. Here, before starting the search for templates you loop over the boundary of the shape you are looking for (T or L) and for each point on its boundary you look at the gradient direction and then the angle at that point between the gradient direction and the origin of the object template, and the distance to the origin. You add that to a table (Let us call it Table A) for each boundary point and you end up with a table that maps from gradient direction to the set of possible locations of the origin of the object. Now you set up a 2D voting space, which is really just a 2D array (let us call it Table B) where each pixel contains a number representing the number of votes for the object in that location. Then for each point in the target image (point cloud) you check the gradient and find the set of possible object locations as found in Table A corresponding to that gradient, and then add one vote for all the corresponding object locations in Table B (the Hough space).

This is a very terse explanation but knowing to look for Template Matching and Generalised Hough transform you will be able to find better explanations on the web. E.g. Look at the Wikipedia pages for Template Matching and Hough Transform.

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You may need to :

1- extract some features from the image inside which you are looking for the object.

2- extract another set of features in the image of the object

3- match the features (it is possible using methods like SIFT)

4- when you find a match apply RANSAC algorithm. it provides you with transformation matrix (including translation, rotation information).

for using SIFT start from here. it is actually one of the best source-codes written for SIFT. It includes RANSAC algorithm and you do not need to implement it by yourself.

you can read about RANSAC here.

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