%0 Journal Article %1 INSR:INSR267 %A De Santis, Fulvio %A Spezzaferri, Fulvio %D 1999 %I Blackwell Publishing Ltd %J International Statistical Review %K thema:bayes %N 3 %P 267--286 %R 10.1111/j.1751-5823.1999.tb00449.x %T Methods for Default and Robust Bayesian Model Comparison: the Fractional Bayes Factor Approach %U http://dx.doi.org/10.1111/j.1751-5823.1999.tb00449.x %V 67 %X In the Bayesian approach to model selection and hypothesis testing, the Bayes factor plays a central role. However, the Bayes factor is very sensitive to prior distributions of parameters. This is a problem especially in the presence of weak prior information on the parameters of the models. The most radical consequence of this fact is that the Bayes factor is undetermined when improper priors are used. Nonetheless, extending the non-informative approach of Bayesian analysis to model selection/testing procedures is important both from a theoretical and an applied viewpoint. The need to develop automatic and robust methods for model comparison has led to the introduction of several alternative Bayes factors. In this paper we review one of these methods: the fractional Bayes factor (O'Hagan, 1995). We discuss general properties of the method, such as consistency and coherence. Furthermore, in addition to the original, essentially asymptotic justifications of the fractional Bayes factor, we provide further finite-sample motivations for its use. Connections and comparisons to other automatic methods are discussed and several issues of robustness with respect to priors and data are considered. Finally, we focus on some open problems in the fractional Bayes factor approach, and outline some possible answers and directions for future research.

@article{INSR:INSR267, abstract = {In the Bayesian approach to model selection and hypothesis testing, the Bayes factor plays a central role. However, the Bayes factor is very sensitive to prior distributions of parameters. This is a problem especially in the presence of weak prior information on the parameters of the models. The most radical consequence of this fact is that the Bayes factor is undetermined when improper priors are used. Nonetheless, extending the non-informative approach of Bayesian analysis to model selection/testing procedures is important both from a theoretical and an applied viewpoint. The need to develop automatic and robust methods for model comparison has led to the introduction of several alternative Bayes factors. In this paper we review one of these methods: the fractional Bayes factor (O'Hagan, 1995). We discuss general properties of the method, such as consistency and coherence. Furthermore, in addition to the original, essentially asymptotic justifications of the fractional Bayes factor, we provide further finite-sample motivations for its use. Connections and comparisons to other automatic methods are discussed and several issues of robustness with respect to priors and data are considered. Finally, we focus on some open problems in the fractional Bayes factor approach, and outline some possible answers and directions for future research.}, added-at = {2016-05-06T22:49:51.000+0200}, author = {De Santis, Fulvio and Spezzaferri, Fulvio}, biburl = {https://www.bibsonomy.org/bibtex/2359fb03df78d2867f4304c073ad8aace/maximumstock}, doi = {10.1111/j.1751-5823.1999.tb00449.x}, interhash = {7f2aedf11b5ce5468dc2ece80262cb35}, intrahash = {359fb03df78d2867f4304c073ad8aace}, issn = {1751-5823}, journal = {International Statistical Review}, keywords = {thema:bayes}, number = 3, pages = {267--286}, publisher = {Blackwell Publishing Ltd}, timestamp = {2016-05-06T22:49:51.000+0200}, title = {Methods for Default and Robust Bayesian Model Comparison: the Fractional Bayes Factor Approach}, url = {http://dx.doi.org/10.1111/j.1751-5823.1999.tb00449.x}, volume = 67, year = 1999 }