Precise Error Analysis of the 2-LASSO

Abstract

A classical problem that arises in numerous signal processing applications asks for the reconstruction of an unknown, k-sparse signal x0∈ Rn from underdetermined, noisy, linear measurements y=Ax0+z∈ Rm. One standard approach is to solve the following convex program x=x \|y-Ax\|2 + λ \|x\|1, which is known as the 2-LASSO. We assume that the entries of the sensing matrix A and of the noise vector z are i.i.d Gaussian with variances 1/m and σ2. In the large system limit when the problem dimensions grow to infinity, but in constant rates, we precisely characterize the limiting behavior of the normalized squared-error \| x-x0\|22/σ2. Our numerical illustrations validate our theoretical predictions.