Benchmark priors for Bayesian model averaging.

*(English)*Zbl 1091.62507Summary: In contrast to a posterior analysis given a particular sampling model, posterior model probabilities in the context of model uncertainty are typically rather sensitive to the specification of the prior. In particular, ‘diffuse’ priors on model-specific parameters can lead to quite unexpected consequences. Here we focus on the practically relevant situation where we need to entertain a (large) number of sampling models and we have (or wish to use) little or no subjective prior information. We aim at providing an ‘automatic’ or ‘benchmark’ prior structure that can be used in such cases. We focus on the normal linear regression model with uncertainty in the choice of regressors. We propose a partly non-informative prior structure related to a natural conjugate g-prior specification, where the amount of subjective information requested from the user is limited to the choice of a single scalar hyperparameter \(g_{0j}\). The consequences of different choices for \(g_{0j}\) are examined. We investigate theoretical properties, such as consistency of the implied Bayesian procedure. Links with classical information criteria are provided. More importantly, we examine the finite sample implications of several choices of \(g_{0j}\)in a simulation study. The use of the MC\(^3\) algorithm of D. Madigan and J. York [Int. Stat. Rev. 63, No. 2, 215–232 (1995; Zbl 0834.62003)], combined with efficient coding in Fortran, makes it feasible to conduct large simulations. In addition to posterior criteria, we shall also compare the predictive performance of different priors. A classic example concerning the economics of crime will also be provided and contrasted with results in the literature. The main findings of the paper will lead us to propose a ‘benchmark’ prior specification in a linear regression context with model uncertainty.

##### MSC:

62F15 | Bayesian inference |

62P20 | Applications of statistics to economics |

65C60 | Computational problems in statistics (MSC2010) |

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\textit{C. Fernández} et al., J. Econom. 100, No. 2, 381--427 (2001; Zbl 1091.62507)

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