Restricted Riemannian geometry for positive semidefinite matrices

Abstract

We introduce the manifold of restricted n× n positive semidefinite matrices of fixed rank p, denoted S(n,p)*. The manifold itself is an open and dense submanifold of S(n,p), the manifold of n× n positive semidefinite matrices of the same rank p, when both are viewed as manifolds in Rn× n. This density is the key fact that makes the consideration of S(n,p)* statistically meaningful. We furnish S(n,p)* with a convenient, and geodesically complete, Riemannian geometry, as well as a Lie group structure, that permits analytical closed forms for endpoint geodesics, parallel transports, Fr\'echet means, exponential and logarithmic maps. This task is done partly through utilizing a reduced Cholesky decomposition, whose algorithm is also provided. We produce a second algorithm from this framework to estimate principal eigenspaces and demonstrate its superior performance over other existing algorithms.