English

Sparse Support Recovery with Non-smooth Loss Functions

Information Theory 2016-11-04 v1 math.IT

Abstract

In this paper, we study the support recovery guarantees of underdetermined sparse regression using the 1\ell_1-norm as a regularizer and a non-smooth loss function for data fidelity. More precisely, we focus in detail on the cases of 1\ell_1 and \ell_\infty losses, and contrast them with the usual 2\ell_2 loss. While these losses are routinely used to account for either sparse (1\ell_1 loss) or uniform (\ell_\infty loss) noise models, a theoretical analysis of their performance is still lacking. In this article, we extend the existing theory from the smooth 2\ell_2 case to these non-smooth cases. We derive a sharp condition which ensures that the support of the vector to recover is stable to small additive noise in the observations, as long as the loss constraint size is tuned proportionally to the noise level. A distinctive feature of our theory is that it also explains what happens when the support is unstable. While the support is not stable anymore, we identify an "extended support" and show that this extended support is stable to small additive noise. To exemplify the usefulness of our theory, we give a detailed numerical analysis of the support stability/instability of compressed sensing recovery with these different losses. This highlights different parameter regimes, ranging from total support stability to progressively increasing support instability.

Keywords

Cite

@article{arxiv.1611.01030,
  title  = {Sparse Support Recovery with Non-smooth Loss Functions},
  author = {Kévin Degraux and Gabriel Peyré and Jalal M. Fadili and Laurent Jacques},
  journal= {arXiv preprint arXiv:1611.01030},
  year   = {2016}
}

Comments

in Proc. NIPS 2016

R2 v1 2026-06-22T16:40:59.558Z