Generalized Singular Value Thresholding

Abstract

This work studies the Generalized Singular Value Thresholding (GSVT) operator Proxgσ(·), equation* Proxgσ(B)=XΣi=1mg(σi(X)) + 12||X-B||F2, equation* associated with a nonconvex function g defined on the singular values of X. We prove that GSVT can be obtained by performing the proximal operator of g (denoted as Proxg(·)) on the singular values since Proxg(·) is monotone when g is lower bounded. If the nonconvex g satisfies some conditions (many popular nonconvex surrogate functions, e.g., p-norm, 0<p<1, of 0-norm are special cases), a general solver to find Proxg(b) is proposed for any b≥0. GSVT greatly generalizes the known Singular Value Thresholding (SVT) which is a basic subroutine in many convex low rank minimization methods. We are able to solve the nonconvex low rank minimization problem by using GSVT in place of SVT.