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I need to find matching between two independent sets of features extracted from two images of the same scene captured by two different cameras. I'm using the HumanEvaI data set, so I have the calibration matrices of the cameras (in this particular case BW1 and BW2).

I can not use method like simple correlation, SIFT or SURF to solve the problem because the cameras are quite far away from each other and also rotated. So the differences between the images are big and there is occlusion as well.

I have been focused in finding an Homography between the captured images based on ground truth points matching that I have been able to build due to the calibration information I already have. Once I have this homography I will use a perfect matching (Hungarian algorithm) to find the best correspondence. The importance of the homography here is that is the way I have to calculate the distance between the points.

So far everything seems fine, my problem is that I haven't been able to find a good homography . I have tried RANSAC method, gold standard method with sampson distance (this is a nonlinear optimization approach) and mainly everything from a book called 'Multiple View Geometry in Computer Vision' Second Edition by Richard Hartley.

I have implemented everything in matlab so far.

Is there another way to do this? I'm I in the right path? If so what could I have been doing wrong?

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2 Answers 2

up vote 0 down vote accepted

Another method I think you might find useful is described here.
This approach tries to fit local models to group of points. Its global optimization method allows it to outperform RANSAC when several distinct local models exists.
I also believe they have code available.

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You can try these two methods:

  1. A new point matching algorithm for non-rigid registration (uses Thin-plate Spline) - relatively slower.
  2. Point Set Registration: Coherent Point Drift (faster and more accurate I feel).

As far as 2nd method is concerned, I feel that it gives very good registration result in presence of outliers, it is fast and is able to recover complex transformations. But the 1st method is also a well-known method in registration field and you may try that as well.

Try understanding the core of the algorithm and then move on to the codes available online.

  1. Thin plate spline here - Download the TPS-RPM demo.
  2. Point Set Registration: Coherent Point Drift here
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