English

Synthetic Priors

Methodology 2026-03-03 v1

Abstract

Bayesian inference in generalized linear models requires a prior on the coefficient vector β\beta. Practitioners naturally reason about response probabilities at specific covariate values, not about abstract log-odds parameters. We develop synthetic priors: informative Bayesian priors for GLMs grounded in Good's device of imaginary observations -- the principle that every conjugate prior is equivalent to a likelihood on pseudo-data from the same exponential family. The conditional means prior of Bedrick (1996) elicits independent Beta priors on the conditional mean response at pp expert-chosen design points; the induced prior on β\beta is a product of binomial likelihoods at synthetic data points. Combined with P\'{o}lya-Gamma data augmentation \citep{polson2013}, the posterior admits an exact conjugate Gibbs sampler -- no tuning, no Metropolis step -- by treating the augmented dataset as a standard logistic regression. We show that ridge regression and catalytic priors \citep{huang2020} are instances of Good's device, and identify prediction-powered inference \citep{angelopoulos2023ppi} as a structural analogue in the frequentist setting -- all three mediate a variance-bias tradeoff through a single informativeness parameter. We illustrate the approach on two benchmark problems: the Challenger O-ring data \citep{dalal1989}, where the BCJ prior provides a more moderate posterior predictive at the 31{\deg}F launch temperature; and a Phase~II atopic dermatitis dose-finding trial (n=300n = 300), where the synthetic prior narrows 95\% credible intervals by 3-6\% and raises decision probabilities by up to 2 percentage points relative to a flat prior.

Keywords

Cite

@article{arxiv.2603.00347,
  title  = {Synthetic Priors},
  author = {Nick Polson and Vadim Sokolov},
  journal= {arXiv preprint arXiv:2603.00347},
  year   = {2026}
}
R2 v1 2026-07-01T10:56:41.167Z