A conditional Lindley paradox in Bayesian linear
成果类型:
Article
署名作者:
Som, Agniva; Hans, Christopher M.; MacEachern, Steven N.
署名单位:
Duke University; University System of Ohio; Ohio State University
刊物名称:
BIOMETRIKA
ISSN/ISSBN:
0006-3444
DOI:
10.1093/biomet/asw037
发表日期:
2016
页码:
993999
关键词:
estimator
mixtures
摘要:
The development of prior distributions for Bayesian regression has traditionally been driven by the goal of achieving sensible model selection and parameter estimation. The formalization of properties that characterize good performance has led to the development and popularization of thick-tailed mixtures of g priors such as the Zellner-Siow and hyper-g priors. In this paper we introduce a conditional information asymptotic regime that is motivated by the common data analysis setting where at least one regression coefficient is much larger than the others. We analyse existing mixtures of g priors under this limit and reveal two new phenomena, essentially least-squares estimation and the conditional Lindley paradox, and argue that these are, in general, undesirable. The driver behind both is the use of a single, latent scale parameter common to all coefficients.