Refined Least Squares for Support Recovery

Abstract

We study the problem of exact support recovery based on noisy observations and present Refined Least Squares (RLS). Given a set of noisy measurement y = Xθ* + ω, and X ∈ RN × D which is a (known) Gaussian matrix and ω ∈ RN is an (unknown) Gaussian noise vector, our goal is to recover the support of the (unknown) sparse vector θ* ∈ \-1,0,1\D. To recover the support of the θ* we use an average of multiple least squares solutions, each computed based on a subset of the full set of equations. The support is estimated by identifying the most significant coefficients of the average least squares solution. We demonstrate that in a wide variety of settings our method outperforms state-of-the-art support recovery algorithms.