Robust Bayesian Inference for Simulator-Based Models via the MMD Posterior Bootstrap
Abstract
Simulator-based models are models for which the likelihood is intractable but simulation of synthetic data is possible. They are often used to describe complex real-world phenomena, and as such can often be misspecified in practice. Unfortunately, existing Bayesian approaches for simulators are known to perform poorly in those cases. In this paper, we propose a novel algorithm based on the posterior bootstrap and maximum mean discrepancy estimators. This leads to a highly-parallelisable Bayesian inference algorithm with strong robustness properties. This is demonstrated through an in-depth theoretical study which includes generalisation bounds and proofs of frequentist consistency and robustness of our posterior. The approach is then assessed on a range of examples including a g-and-k distribution and a toggle-switch model.
Cite
Text
Dellaporta et al. "Robust Bayesian Inference for Simulator-Based Models via the MMD Posterior Bootstrap." Artificial Intelligence and Statistics, 2022.Markdown
[Dellaporta et al. "Robust Bayesian Inference for Simulator-Based Models via the MMD Posterior Bootstrap." Artificial Intelligence and Statistics, 2022.](https://mlanthology.org/aistats/2022/dellaporta2022aistats-robust/)BibTeX
@inproceedings{dellaporta2022aistats-robust,
title = {{Robust Bayesian Inference for Simulator-Based Models via the MMD Posterior Bootstrap}},
author = {Dellaporta, Charita and Knoblauch, Jeremias and Damoulas, Theodoros and Briol, Francois-Xavier},
booktitle = {Artificial Intelligence and Statistics},
year = {2022},
pages = {943-970},
volume = {151},
url = {https://mlanthology.org/aistats/2022/dellaporta2022aistats-robust/}
}