Scaled Gradients on Grassmann Manifolds for Matrix Completion

Part of Advances in Neural Information Processing Systems 25 (NIPS 2012)

Bibtex Metadata Paper

Authors

Thanh Ngo, Yousef Saad

Abstract

This paper describes gradient methods based on a scaled metric on the Grassmann manifold for low-rank matrix completion. The proposed methods significantly improve canonical gradient methods especially on ill-conditioned matrices, while maintaining established global convegence and exact recovery guarantees. A connection between a form of subspace iteration for matrix completion and the scaled gradient descent procedure is also established. The proposed conjugate gradient method based on the scaled gradient outperforms several existing algorithms for matrix completion and is competitive with recently proposed methods.