The whetstone and the alum block: balanced objective Bayesian comparison of nested models for discrete data

Guido Consonni; Jonathan J. Forster; Luca La Rocca

doi:10.1214/13-STS433

The whetstone and the alum block: balanced objective Bayesian comparison of nested models for discrete data

Guido Consonni, Jonathan J. Forster, Luca La Rocca

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

11 Citations (Scopus)

Abstract

When two nested models are compared, using a Bayes factor, from an objective standpoint, two seemingly conflicting issues emerge at the time of choosing parameter priors under the two models. On the one hand, for moderate sample sizes, the evidence in favor of the smaller model can be inflated by diffuseness of the prior under the larger model. On the other hand, asymptotically, the evidence in favor of the smaller model typically accumulates at a slower rate.With reference to finitely discrete data models, we show that these two issues can be dealt with jointly, by combining intrinsic priors and nonlocal priors in a new unified class of priors. We illustrate our ideas in a running Bernoulli example, then we apply them to test the equality of two proportions, and finally we deal with the more general case of logistic regression models.

Original language	English
Pages (from-to)	398-423
Number of pages	26
Journal	Statistical Science
Volume	28
DOIs	https://doi.org/10.1214/13-STS433
Publication status	Published - 2013

Keywords

Bayes factor
Bayesian model choice
Non-local pior

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10.1214/13-STS433

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title = "The whetstone and the alum block: balanced objective Bayesian comparison of nested models for discrete data",

abstract = "When two nested models are compared, using a Bayes factor, from an objective standpoint, two seemingly conflicting issues emerge at the time of choosing parameter priors under the two models. On the one hand, for moderate sample sizes, the evidence in favor of the smaller model can be inflated by diffuseness of the prior under the larger model. On the other hand, asymptotically, the evidence in favor of the smaller model typically accumulates at a slower rate.With reference to finitely discrete data models, we show that these two issues can be dealt with jointly, by combining intrinsic priors and nonlocal priors in a new unified class of priors. We illustrate our ideas in a running Bernoulli example, then we apply them to test the equality of two proportions, and finally we deal with the more general case of logistic regression models.",

keywords = "Bayes factor, Bayesian model choice, Non-local pior, Bayes factor, Bayesian model choice, Non-local pior",

author = "Guido Consonni and Forster, {Jonathan J.} and Rocca, {Luca La}",

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publisher = "Institute of Mathematical Statistics:PO Box 22718:Beachwood, OH 44122:(216)295-2340, EMAIL: plsims@stat.berkeley.edu, INTERNET: http://www.imstat.org, Fax: (216)991-8860",

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TY - JOUR

T1 - The whetstone and the alum block: balanced objective Bayesian comparison of nested models for discrete data

AU - Consonni, Guido

AU - Forster, Jonathan J.

AU - Rocca, Luca La

PY - 2013

Y1 - 2013

N2 - When two nested models are compared, using a Bayes factor, from an objective standpoint, two seemingly conflicting issues emerge at the time of choosing parameter priors under the two models. On the one hand, for moderate sample sizes, the evidence in favor of the smaller model can be inflated by diffuseness of the prior under the larger model. On the other hand, asymptotically, the evidence in favor of the smaller model typically accumulates at a slower rate.With reference to finitely discrete data models, we show that these two issues can be dealt with jointly, by combining intrinsic priors and nonlocal priors in a new unified class of priors. We illustrate our ideas in a running Bernoulli example, then we apply them to test the equality of two proportions, and finally we deal with the more general case of logistic regression models.

AB - When two nested models are compared, using a Bayes factor, from an objective standpoint, two seemingly conflicting issues emerge at the time of choosing parameter priors under the two models. On the one hand, for moderate sample sizes, the evidence in favor of the smaller model can be inflated by diffuseness of the prior under the larger model. On the other hand, asymptotically, the evidence in favor of the smaller model typically accumulates at a slower rate.With reference to finitely discrete data models, we show that these two issues can be dealt with jointly, by combining intrinsic priors and nonlocal priors in a new unified class of priors. We illustrate our ideas in a running Bernoulli example, then we apply them to test the equality of two proportions, and finally we deal with the more general case of logistic regression models.

KW - Bayes factor

KW - Bayesian model choice

KW - Non-local pior

KW - Bayes factor

KW - Bayesian model choice

KW - Non-local pior

UR - http://hdl.handle.net/10807/46052

UR - http://dx.medra.org/10.1214/13-sts433

U2 - 10.1214/13-STS433

DO - 10.1214/13-STS433

M3 - Article

SN - 0883-4237

VL - 28

SP - 398

EP - 423

JO - Statistical Science

JF - Statistical Science

ER -

The whetstone and the alum block: balanced objective Bayesian comparison of nested models for discrete data

Abstract

Keywords

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