I have an application where I must find a rotation from a set of 15 orderer&indexed 3D points (X1, X2, ..., X15) to another set of 15 points with the same index (1 initial point corresponding to 1 final point).

I've read manythings about finding the rotation with Euler angles (evil for some persons), quaternions or with projecting the vector on the basis axis. But i've an additionnal constraint : a few points of my final set can be wrong (i.e. have wrong coordinates) so I want to discriminate the points that ask a rotation very far from the median rotation.

My issue is : for every set of 3 points (not aligned ones) and their images I can compute quaternions (according to the fact that the transformation matrix won't be a pure rotation I have some additionnal calculations but it can be done). So I get a set of quaternions (455 ones max) and I want to remove the wrong ones.

Is there a way to find what points give rotations far from the mean rotation ? Does the "mean" and "the standard deviation" mean something for quaternions or must I compute Euler angles ? And once I've the set of "good" quaternions, how can I compute the "mean" quaternion/rotation ?

Cheers,

Ricola3D