Asymptotics for a class of parametric martingale posteriors
Asymptotics for a class of parametric martingale posteriors
The martingale posterior framework replaces the elicitation of the likelihood and prior with that of a sequence of one-step-ahead predictive densities for Bayesian inference. Posterior sampling then involves the imputation of unobserved quantities and can then be carried out in an expedient and parallelizable manner using predictive resampling, without requiring Markov chain Monte Carlo. Recent work has investigated the use of plug-in parametric predictive densities, combined with stochastic gradient descent, to specify a parametric martingale posterior. This paper investigates the asymptotic properties of this class of parametric martingale posteriors. In particular, two central limit theorems based on martingale limit theory are introduced and applied. The first is a predictive central limit theorem, which enables a significant acceleration of the predictive resampling scheme through a hybrid sampling algorithm based on a normal approximation. The second is a Bernstein–von Mises result, which is novel for martingale posteriors, and provides methodological guidance on attaining desirable frequentist properties. We demonstrate the utility of the theoretical results through simulations and a real data example.
Fong, Edwin
68fbe09f-83e5-47b8-8152-88633fa2eee4
Yiu, Andrew
cd904c57-0174-4733-af7f-6d9e5c58f10a
19 February 2026
Fong, Edwin
68fbe09f-83e5-47b8-8152-88633fa2eee4
Yiu, Andrew
cd904c57-0174-4733-af7f-6d9e5c58f10a
Fong, Edwin and Yiu, Andrew
(2026)
Asymptotics for a class of parametric martingale posteriors.
Biometrika.
(doi:10.1093/biomet/asag007).
Abstract
The martingale posterior framework replaces the elicitation of the likelihood and prior with that of a sequence of one-step-ahead predictive densities for Bayesian inference. Posterior sampling then involves the imputation of unobserved quantities and can then be carried out in an expedient and parallelizable manner using predictive resampling, without requiring Markov chain Monte Carlo. Recent work has investigated the use of plug-in parametric predictive densities, combined with stochastic gradient descent, to specify a parametric martingale posterior. This paper investigates the asymptotic properties of this class of parametric martingale posteriors. In particular, two central limit theorems based on martingale limit theory are introduced and applied. The first is a predictive central limit theorem, which enables a significant acceleration of the predictive resampling scheme through a hybrid sampling algorithm based on a normal approximation. The second is a Bernstein–von Mises result, which is novel for martingale posteriors, and provides methodological guidance on attaining desirable frequentist properties. We demonstrate the utility of the theoretical results through simulations and a real data example.
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asag007
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Accepted/In Press date: 15 December 2025
Published date: 19 February 2026
Identifiers
Local EPrints ID: 511026
URI: http://eprints.soton.ac.uk/id/eprint/511026
ISSN: 0006-3444
PURE UUID: bd3bbdca-9a41-4f43-b2b6-ad9cf867954f
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Date deposited: 28 Apr 2026 17:05
Last modified: 28 Apr 2026 17:06
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Author:
Edwin Fong
Author:
Andrew Yiu
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