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Model Selection for High-Dimensional Regression under the Generalized Irrepresentability Condition

Statistics Theory 2013-05-03 v1 Information Theory Machine Learning math.IT Methodology Machine Learning Statistics Theory

Abstract

In the high-dimensional regression model a response variable is linearly related to pp covariates, but the sample size nn is smaller than pp. We assume that only a small subset of covariates is `active' (i.e., the corresponding coefficients are non-zero), and consider the model-selection problem of identifying the active covariates. A popular approach is to estimate the regression coefficients through the Lasso (1\ell_1-regularized least squares). This is known to correctly identify the active set only if the irrelevant covariates are roughly orthogonal to the relevant ones, as quantified through the so called `irrepresentability' condition. In this paper we study the `Gauss-Lasso' selector, a simple two-stage method that first solves the Lasso, and then performs ordinary least squares restricted to the Lasso active set. We formulate `generalized irrepresentability condition' (GIC), an assumption that is substantially weaker than irrepresentability. We prove that, under GIC, the Gauss-Lasso correctly recovers the active set.

Keywords

Cite

@article{arxiv.1305.0355,
  title  = {Model Selection for High-Dimensional Regression under the Generalized Irrepresentability Condition},
  author = {Adel Javanmard and Andrea Montanari},
  journal= {arXiv preprint arXiv:1305.0355},
  year   = {2013}
}

Comments

32 pages, 3 figures

R2 v1 2026-06-22T00:09:59.547Z