Approximate Bayesian Computation and simulation-based inference for complex stochastic epidemic models

McKinley, T.J.; Vernon, I.; Andrianakis, I.; McCreesh, N.; Oakley, J.E.; Nsubuga, R.; Goldstein, M.; White, R.G.

doi:10.1214/17-sts618

Approximate Bayesian Computation and simulation-based inference for complex stochastic epidemic models

McKinley, T.J.; Vernon, I.; Andrianakis, I.; McCreesh, N.; Oakley, J.E.; Nsubuga, R.; Goldstein, M.; White, R.G.

Authors

T.J. McKinley

Professor Ian Vernon i.r.vernon@durham.ac.uk
Professor

I. Andrianakis

N. McCreesh

J.E. Oakley

R. Nsubuga

M. Goldstein

R.G. White

Abstract

Approximate Bayesian Computation (ABC) and other simulation-based inference methods are becoming increasingly used for inference in complex systems, due to their relative ease-of-implementation. We briefly review some of the more popular variants of ABC and their application in epidemiology, before using a real-world model of HIV transmission to illustrate some of challenges when applying ABC methods to high-dimensional, computationally intensive models. We then discuss an alternative approach—history matching—that aims to address some of these issues, and conclude with a comparison between these different methodologies.

Citation

McKinley, T., Vernon, I., Andrianakis, I., McCreesh, N., Oakley, J., Nsubuga, R., …White, R. (2018). Approximate Bayesian Computation and simulation-based inference for complex stochastic epidemic models. Statistical Science, 33(1), 4-18. https://doi.org/10.1214/17-sts618

Journal Article Type	Article
Acceptance Date	Jun 10, 2017
Online Publication Date	Feb 2, 2018
Publication Date	Feb 2, 2018
Deposit Date	Sep 26, 2016
Publicly Available Date	Sep 20, 2017
Journal	Statistical Science
Print ISSN	0883-4237
Electronic ISSN	2168-8745
Publisher	Institute of Mathematical Statistics
Peer Reviewed	Peer Reviewed
Volume	33
Issue	1
Pages	4-18
DOI	https://doi.org/10.1214/17-sts618
Public URL	https://durham-repository.worktribe.com/output/1404397