I'm trying to auto-detect the axis of rotation on a 3d pointcloud.

In other words, if I took a small 3d pointcloud, chose a single axis of rotation, and make several copies of the points at different rotation angles, then I get a larger pointcloud.

The input to my algorithm is the larger pointcloud, and the desired output is the single axis of symmetry. And eventually I'm going to compute the correspondences between points that are rotations of each other.

The size of the larger pointcloud is on the order of 100K points, and the number of rotational copies made is unknown.

The rotation angles in my case have constant deltas, but don't necessarily span 360 degrees. For example, I might have 0, 20, 40, 60. Or I might have 0, 90, 180, 270. But I won't have 0, 13, 78, 212 (or if I do, I don't care to detect it).

This seems like a computer vision problem, but I'm having trouble figuring out how to precisely find the axis. The input will generally be very clean, close to float accuracy.

I don't have the original smaller pointcloud that was rotated/copied to make the larger pointcloud. I do know that the data is synthetic with very little noise (it's generally the output of another program).

We can't readily compute the possible numbers of points in the smaller cloud, because right along the axis the points aren't duplicated, unfortunately. If we knew which points were along the axis then we could come up with possible factors, but then we'd have already solved the problem.

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Thanks everyone for your suggestions. It looks like my final algorithm is going to try to come up with cliques of matching points using a k-nn metric. Each clique will give an axis. I can then use RANSAC to fit an axis to the results of all the cliques.