Robust inference and model criticism using bagged posteriors
Huggins, Jonathan H.
Miller, Jeffrey W.
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Citation (published version)Jonathan H Huggins, Jeffrey W Miller. 2019. "Robust Inference and Model Criticism Using Bagged Posteriors." arXiv.org, Volume arXiv:1912.07104 [stat.ME], https://arxiv.org/abs/1912.07104.
Standard Bayesian inference is known to be sensitive to model misspecification, leading to unreliable uncertainty quantification and poor predictive performance. However, finding generally applicable and computationally feasible methods for robust Bayesian inference under misspecification has proven to be a difficult challenge. An intriguing, easy-to-use, and widely applicable approach is to use bagging on the Bayesian posterior (“Bayes- Bag”); that is, to use the average of posterior distributions conditioned on bootstrapped datasets. In this paper, we develop the asymptotic theory of BayesBag, propose a model–data mismatch index for model criticism using BayesBag, and empirically validate our theory and methodology on synthetic and real-world data in linear regression, sparse logistic regression, and a hierarchical mixed effects model. We find that in the presence of significant misspecification, BayesBag yields more reproducible inferences and has better predictive accuracy than the standard Bayesian posterior; on the other hand, when the model is correctly specified, BayesBag produces superior or equally good results. Overall, our results demonstrate that BayesBag combines the attractive modeling features of standard Bayesian inference with the distributional robustness properties of frequentist methods, providing benefits over both Bayes alone and the bootstrap alone.