Probing the Pareto frontier for basis pursuit solutions

TitleProbing the Pareto frontier for basis pursuit solutions
Publication TypeJournal Article
Year of Publication2008
AuthorsEwout van den Berg, Michael P. Friedlander
JournalSIAM Journal on Scientific Computing
Volume31
Pagination890-912
Month01
Keywordsbasis pursuit, convex program, duality, Newton’s method, one-norm regularization, Optimization, projected gradient, root-finding, sparse solutions
Abstract

The basis pursuit problem seeks a minimum one-norm solution of an underdetermined least-squares problem. Basis pursuit denoise (BPDN) fits the least-squares problem only approximately, and a single parameter determines a curve that traces the optimal trade-off between the least-squares fit and the one-norm of the solution. We prove that this curve is convex and continuously differentiable over all points of interest, and show that it gives an explicit relationship to two other optimization problems closely related to BPDN. We describe a root-finding algorithm for finding arbitrary points on this curve; the algorithm is suitable for problems that are large scale and for those that are in the complex domain. At each iteration, a spectral gradient-projection method approximately minimizes a least-squares problem with an explicit one-norm constraint. Only matrix-vector operations are required. The primal-dual solution of this problem gives function and derivative information needed for the root-finding method. Numerical experiments on a comprehensive set of test problems demonstrate that the method scales well to large problems.

URLhttps://slim.gatech.edu/Publications/Public/Journals/SIAMJournalOnScientificComputing/2008/vanderberg08SIAMptp/vanderberg08SIAMptp.pdf
DOI10.1137/080714488
Citation Keyberg2008SJSCpareto