Square-Root Lasso: Pivotal Recovery of Sparse Signals via Conic Programming

Author(s)

Belloni, Alexandre; Chernozhukov, Victor; Wang, Lie

Abstract

We propose a pivotal method for estimating high-dimensional sparse linear regression models, where the overall number of regressors p is large, possibly much larger than n, but only s regressors are significant. The method is a modification of the lasso, called the square-root lasso. The method is pivotal in that it neither relies on the knowledge of the standard deviation σ or nor does it need to pre-estimate σ. Moreover, the method does not rely on normality or sub-Gaussianity of noise. It achieves near-oracle performance, attaining the convergence rate σ{(s/n) log p}1/2 in the prediction norm, and thus matching the performance of the lasso with known σ. These performance results are valid for both Gaussian and non-Gaussian errors, under some mild moment restrictions. We formulate the square-root lasso as a solution to a convex conic programming problem, which allows us to implement the estimator using efficient algorithmic methods, such as interior-point and first-order methods.

Date issued

2011-06-13

URI

http://hdl.handle.net/1721.1/65146

Publisher

Cambridge, MA: Department of Economics; Massachusetts Institute of Technology

Series/Report no.

Working paper (Massachusetts Institute of Technology, Department of Economics);11-16