Probabilistic numerical methods for partial differential equations and Bayesian Inverse problems
Probabilistic numerical methods for partial differential equations and Bayesian Inverse problems
This paper develops a probabilistic numerical method for solution of partial differential equations (PDEs) and studies application of that method to PDE-constrained inverse problems. This approach enables the solution of challenging inverse problems whilst accounting, in a statistically principled way, for the impact of discretisation error due to numerical solution of the PDE. In particular, the approach confers robustness to failure of the numerical PDE solver, with statistical inferences driven to be more conservative in the presence of substantial discretisation error. Going further, the problem of choosing a PDE solver is cast as a problem in the Bayesian design of experiments, where the aim is to minimise the impact of solver error on statistical inferences; here the challenge of non-linear PDEs is also considered. The method is applied to parameter inference problems in which discretisation error in non-negligible and must be accounted for in order to reach conclusions that are statistically valid.
Cockayne, Jonathan
da87c8b2-fafb-4856-938d-50be8f0e4a5b
Oates, Chris J.
3af13c56-dc47-4d2c-867f-e4e933e74619
Sullivan, T.J.
1ef5be06-ad9c-44df-afdd-7b2294eb1e6b
Girolami, Mark
4feb7248-7beb-4edc-8509-139b4049d23b
Cockayne, Jonathan
da87c8b2-fafb-4856-938d-50be8f0e4a5b
Oates, Chris J.
3af13c56-dc47-4d2c-867f-e4e933e74619
Sullivan, T.J.
1ef5be06-ad9c-44df-afdd-7b2294eb1e6b
Girolami, Mark
4feb7248-7beb-4edc-8509-139b4049d23b
Cockayne, Jonathan, Oates, Chris J., Sullivan, T.J. and Girolami, Mark
(2016)
Probabilistic numerical methods for partial differential equations and Bayesian Inverse problems.
Record type:
Conference or Workshop Item
(Paper)
Abstract
This paper develops a probabilistic numerical method for solution of partial differential equations (PDEs) and studies application of that method to PDE-constrained inverse problems. This approach enables the solution of challenging inverse problems whilst accounting, in a statistically principled way, for the impact of discretisation error due to numerical solution of the PDE. In particular, the approach confers robustness to failure of the numerical PDE solver, with statistical inferences driven to be more conservative in the presence of substantial discretisation error. Going further, the problem of choosing a PDE solver is cast as a problem in the Bayesian design of experiments, where the aim is to minimise the impact of solver error on statistical inferences; here the challenge of non-linear PDEs is also considered. The method is applied to parameter inference problems in which discretisation error in non-negligible and must be accounted for in order to reach conclusions that are statistically valid.
This record has no associated files available for download.
More information
e-pub ahead of print date: 25 May 2016
Identifiers
Local EPrints ID: 452076
URI: http://eprints.soton.ac.uk/id/eprint/452076
PURE UUID: 00b1b747-56f3-48b5-9c97-8e99081cb885
Catalogue record
Date deposited: 11 Nov 2021 17:31
Last modified: 11 May 2024 02:06
Export record
Contributors
Author:
Chris J. Oates
Author:
T.J. Sullivan
Author:
Mark Girolami
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
