Complex Interpolation of Matrices with an application to Multi-Manifold Learning

Abstract

Given two symmetric positive-definite matrices A, B ∈ Rn × n, we study the spectral properties of the interpolation A1-x Bx for 0 ≤ x ≤ 1. The presence of `common structures' in A and B, eigenvectors pointing in a similar direction, can be investigated using this interpolation perspective. Generically, exact log-linearity of the operator norm \|A1-x Bx\| is equivalent to the existence of a shared eigenvector in the original matrices; stability bounds show that approximate log-linearity forces principal singular vectors to align with leading eigenvectors of both matrices. These results give rise to and provide theoretical justification for a multi-manifold learning framework that identifies common and distinct latent structures in multiview data.