Abstract

The problem of recovering the low-rank and sparse components of a matrix is known as the stable principal component pursuit (SPCP) problem. It has found many applications in compressed sensing, image processing, and web data ranking. This paper proposes a generalized inexact Uzawa method for SPCP with nonnegative constraints. The main advantage of our method is that the resulting subproblems all have closed-form solutions and can be executed in distributed manners. Global convergence of the method is proved from variational inequalities perspective. Numerical experiments show that our algorithm converges to the optimal solution as other distributed methods, with better performances.

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