PSEUDO-BAYESIAN APPROACH FOR QUANTILE REGRESSION INFERENCE: ADAPTATION TO SPARSITY

Yuanzhi Li; Xuming He

doi:10.5705/ss.202021.0338

PSEUDO-BAYESIAN APPROACH FOR QUANTILE REGRESSION INFERENCE: ADAPTATION TO SPARSITY

Yuanzhi Li
, Xuming He

Arts & Sciences

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

1 Scopus citations

Abstract

Quantile regression is a powerful data analysis tool that accommodates heterogeneous covariate-response relationships. We find that by coupling the asymmetric Laplace working likelihood with appropriate shrinkage priors, we can deliver pseudo-Bayesian inference that adapts automatically to possible sparsity in quantile regression analysis. After a suitable adjustment on the posterior variance, the proposed method provides asymptotically valid inference under heterogeneity. Furthermore, the proposed approach leads to oracle asymptotic efficiency for the active (nonzero) quantile regression coefficients, and super-efficiency for the non-active ones. By avoiding dichotomous variable selection, the Bayesian computational framework demonstrates desirable inference stability with respect to tuning parameter selection. Our work helps to uncloak the value of Bayesian computational methods in frequentist inference for quantile regression.

Original language	English
Pages (from-to)	793-815
Number of pages	23
Journal	Statistica Sinica
Volume	34
Issue number	20
DOIs	https://doi.org/10.5705/ss.202021.0338
State	Published - Apr 2024

Keywords

Asymmetric Laplace distribution
increasing dimension
optimal weighting
posterior asymptotics shrinkage prior
working likelihood

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title = "PSEUDO-BAYESIAN APPROACH FOR QUANTILE REGRESSION INFERENCE: ADAPTATION TO SPARSITY",

abstract = "Quantile regression is a powerful data analysis tool that accommodates heterogeneous covariate-response relationships. We find that by coupling the asymmetric Laplace working likelihood with appropriate shrinkage priors, we can deliver pseudo-Bayesian inference that adapts automatically to possible sparsity in quantile regression analysis. After a suitable adjustment on the posterior variance, the proposed method provides asymptotically valid inference under heterogeneity. Furthermore, the proposed approach leads to oracle asymptotic efficiency for the active (nonzero) quantile regression coefficients, and super-efficiency for the non-active ones. By avoiding dichotomous variable selection, the Bayesian computational framework demonstrates desirable inference stability with respect to tuning parameter selection. Our work helps to uncloak the value of Bayesian computational methods in frequentist inference for quantile regression.",

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author = "Yuanzhi Li and Xuming He",

year = "2024",

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AB - Quantile regression is a powerful data analysis tool that accommodates heterogeneous covariate-response relationships. We find that by coupling the asymmetric Laplace working likelihood with appropriate shrinkage priors, we can deliver pseudo-Bayesian inference that adapts automatically to possible sparsity in quantile regression analysis. After a suitable adjustment on the posterior variance, the proposed method provides asymptotically valid inference under heterogeneity. Furthermore, the proposed approach leads to oracle asymptotic efficiency for the active (nonzero) quantile regression coefficients, and super-efficiency for the non-active ones. By avoiding dichotomous variable selection, the Bayesian computational framework demonstrates desirable inference stability with respect to tuning parameter selection. Our work helps to uncloak the value of Bayesian computational methods in frequentist inference for quantile regression.

KW - Asymmetric Laplace distribution

KW - increasing dimension

KW - optimal weighting

KW - posterior asymptotics shrinkage prior

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PSEUDO-BAYESIAN APPROACH FOR QUANTILE REGRESSION INFERENCE: ADAPTATION TO SPARSITY

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