Regularization in regression: Comparing Bayesian and frequentist methods in a poorly informative situation

Gilles Celeux; Mohammed El Anbari; Jean Michel Marin; Christian P. Robert

doi:10.1214/12-BA716

Regularization in regression: Comparing Bayesian and frequentist methods in a poorly informative situation

Gilles Celeux^*
, Mohammed El Anbari
, Jean Michel Marin
, Christian P. Robert

^*Corresponding author for this work

Research output: Contribution to journal › Article › Research › peer-review

40 Citations (Scopus)

Abstract

Using a collection of simulated and real benchmarks, we compare Bayesian and frequentist regularization approaches under a low informative constraint when the number of variables is almost equal to the number of observations on simulated and real datasets. This comparison includes new global noninformative approaches for Bayesian variable selection built on Zellner's g-priors that are similar to Liang et al. (2008). The interest of those calibration-free proposals is discussed. The numerical experiments we present highlight the appeal of Bayesian regularization methods, when compared with non-Bayesian alternatives. They dominate frequentist methods in the sense that they provide smaller prediction errors while selecting the most relevant variables in a parsimonious way.

Original language	English
Pages (from-to)	477-502
Number of pages	26
Journal	Bayesian Analysis
Volume	7
Issue number	2
DOIs	https://doi.org/10.1214/12-BA716
Publication status	Published - 2012
Externally published	Yes

Keywords

Calibration
Dantzig selector
Elastic net
Lasso
Model choice
Noninformative priors
Regularization methods
Zellner's g-prior

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10.1214/12-BA716

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abstract = "Using a collection of simulated and real benchmarks, we compare Bayesian and frequentist regularization approaches under a low informative constraint when the number of variables is almost equal to the number of observations on simulated and real datasets. This comparison includes new global noninformative approaches for Bayesian variable selection built on Zellner's g-priors that are similar to Liang et al. (2008). The interest of those calibration-free proposals is discussed. The numerical experiments we present highlight the appeal of Bayesian regularization methods, when compared with non-Bayesian alternatives. They dominate frequentist methods in the sense that they provide smaller prediction errors while selecting the most relevant variables in a parsimonious way.",

keywords = "Calibration, Dantzig selector, Elastic net, Lasso, Model choice, Noninformative priors, Regularization methods, Zellner's g-prior",

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AU - El Anbari, Mohammed

AU - Marin, Jean Michel

AU - Robert, Christian P.

PY - 2012

Y1 - 2012

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AB - Using a collection of simulated and real benchmarks, we compare Bayesian and frequentist regularization approaches under a low informative constraint when the number of variables is almost equal to the number of observations on simulated and real datasets. This comparison includes new global noninformative approaches for Bayesian variable selection built on Zellner's g-priors that are similar to Liang et al. (2008). The interest of those calibration-free proposals is discussed. The numerical experiments we present highlight the appeal of Bayesian regularization methods, when compared with non-Bayesian alternatives. They dominate frequentist methods in the sense that they provide smaller prediction errors while selecting the most relevant variables in a parsimonious way.

KW - Calibration

KW - Dantzig selector

KW - Elastic net

KW - Lasso

KW - Model choice

KW - Noninformative priors

KW - Regularization methods

KW - Zellner's g-prior

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DO - 10.1214/12-BA716

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VL - 7

SP - 477

EP - 502

JO - Bayesian Analysis

JF - Bayesian Analysis

IS - 2

ER -

Regularization in regression: Comparing Bayesian and frequentist methods in a poorly informative situation

Abstract

Keywords

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