English

Improved error rates for sparse (group) learning with Lipschitz loss functions

Machine Learning 2021-09-23 v7 Machine Learning Other Statistics

Abstract

We study a family of sparse estimators defined as minimizers of some empirical Lipschitz loss function -- which include the hinge loss, the logistic loss and the quantile regression loss -- with a convex, sparse or group-sparse regularization. In particular, we consider the L1 norm on the coefficients, its sorted Slope version, and the Group L1-L2 extension. We propose a new theoretical framework that uses common assumptions in the literature to simultaneously derive new high-dimensional L2 estimation upper bounds for all three regularization schemes. %, and to improve over existing results. For L1 and Slope regularizations, our bounds scale as (k/n)log(p/k)(k^*/n) \log(p/k^*) -- n×pn\times p is the size of the design matrix and kk^* the dimension of the theoretical loss minimizer \Bβ\B{\beta}^* -- and match the optimal minimax rate achieved for the least-squares case. For Group L1-L2 regularization, our bounds scale as (s/n)log(G/s)+m/n(s^*/n) \log\left( G / s^* \right) + m^* / n -- GG is the total number of groups and mm^* the number of coefficients in the ss^* groups which contain \Bβ\B{\beta}^* -- and improve over the least-squares case. We show that, when the signal is strongly group-sparse, Group L1-L2 is superior to L1 and Slope. In addition, we adapt our approach to the sub-Gaussian linear regression framework and reach the optimal minimax rate for Lasso, and an improved rate for Group-Lasso. Finally, we release an accelerated proximal algorithm that computes the nine main convex estimators of interest when the number of variables is of the order of 100,000s100,000s.

Keywords

Cite

@article{arxiv.1910.08880,
  title  = {Improved error rates for sparse (group) learning with Lipschitz loss functions},
  author = {Antoine Dedieu},
  journal= {arXiv preprint arXiv:1910.08880},
  year   = {2021}
}

Comments

arXiv admin note: text overlap with arXiv:1810.03081

R2 v1 2026-06-23T11:48:47.068Z