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Random weighting in LASSO regression

Methodology 2022-05-25 v4

Abstract

We establish statistical properties of random-weighting methods in LASSO regression under different regularization parameters λn\lambda_n and suitable regularity conditions. The random-weighting methods in view concern repeated optimization of a randomized objective function, motivated by the need for computational approximations to Bayesian posterior sampling. In the context of LASSO regression, we repeatedly assign analyst-drawn random weights to terms in the objective function (including the penalty terms), and optimize to obtain a sample of random-weighting estimators. We show that existing approaches have conditional model selection consistency and conditional asymptotic normality at different growth rates of λn\lambda_n as nn \to \infty. We propose an extension to the available random-weighting methods and establish that the resulting samples attain conditional sparse normality and conditional consistency in a growing-dimension setting. We find that random-weighting has both approximate-Bayesian and sampling-theory interpretations. Finally, we illustrate the proposed methodology via extensive simulation studies and a benchmark data example.

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Cite

@article{arxiv.2002.02629,
  title  = {Random weighting in LASSO regression},
  author = {Tun Lee Ng and Michael A. Newton},
  journal= {arXiv preprint arXiv:2002.02629},
  year   = {2022}
}

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R2 v1 2026-06-23T13:33:53.462Z