Sample Complexity of Low-rank Tensor Recovery from Uniformly Random Entries

Abstract

We show that a generic tensor T∈ Fn× n× …× n of order k and CP rank d can be uniquely recovered from n n+dn n +o(n n) uniformly random entries with high probability if d and k are constant and F∈ \R,C\. The bound is tight up to the coefficient of the second leading term and improves on the existing O(nk2 polylog(n)) upper bound for order k tensors. The bound is obtained by showing that the projection of the Segre variety to a random axis-parallel linear subspace preserves d-identifiability with high probability if the dimension of the subspace is n n+dn n +o(n n) and n is sufficiently large.