Abstract
A catalytic prior distribution is designed to stabilize a high-dimensional “working model” by shrinking it toward a “simplified model.” The shrinkage is achieved by supplementing the observed data with a small amount of “synthetic data” generated from a predictive distribution under the simpler model. We apply this framework to generalized linear models, where we propose various strategies for the specification of a tuning parameter governing the degree of shrinkage and study resultant theoretical properties. In simulations, the resulting posterior estimation using such a catalytic prior outperforms maximum likelihood estimation from the working model and is generally comparable with or superior to existing competitive methods in terms of frequentist prediction accuracy of point estimation and coverage accuracy of interval estimation. The catalytic priors have simple interpretations and are easy to formulate.
Funder
NSF | MPS | Division of Mathematical Sciences
NSF | CISE | Division of Information and Intelligent Systems
HHS | NIH | National Institute of General Medical Sciences
DOD | United States Navy | Office of Naval Research
Publisher
Proceedings of the National Academy of Sciences
Cited by
6 articles.
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