Group-invariant moments under tomographic projections

Abstract

Let f:Rn be an unknown object, and suppose the observations are tomographic projections of randomly rotated copies of f of the form Y = P(R· f), where R is Haar-uniform in SO(n) and P is the projection onto an m-dimensional subspace, so that Y:Rm. We prove that, whenever d m, the d-th order moment of the projected data determines the full d-th order Haar-orbit moment of f, independently of the ambient dimension n. We further provide an explicit algorithmic procedure for recovering the latter from the former. As a consequence, any identifiability result for the unprojected model based on d-th order group-invariant moment extends directly to the tomographic setting at the same moment order. In particular, for n=3, m=2, and d=2, our result recovers a classical result in the cryo-EM literature: the covariance of the 2D projection images determines the second order rotationally invariant moment of the underlying 3D object.