An approach for finding fully Bayesian optimal designs using normal-based approximations to loss functions
An approach for finding fully Bayesian optimal designs using normal-based approximations to loss functions
The generation of decision-theoretic Bayesian optimal designs is complicated by the significant computational challenge of minimising an analytically intractable expected loss function over a, potentially, high-dimensional design space. A new general approach for approximately finding Bayesian optimal designs is proposed which uses computationally efficient normal-based approximations to posterior summaries to aid in approximating the expected loss. This new approach is demonstrated on illustrative, yet challenging, examples including hierarchical models for blocked experiments, and experimental aims of parameter estimation and model discrimination. Where possible, the results of the proposed methodology are compared, both in terms of performance and computing time, to results from using computationally more expensive, but potentially more accurate, Monte Carlo approximations. Moreover the methodology is also applied to problems where the use of Monte Carlo approximations is computationally infeasible.
343-358
Overstall, Antony
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McGree, James
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Drovandi, Christopher
3f7f96bd-c03b-4cd9-9102-5c03d0f1cb7e
2018
Overstall, Antony
c1d6c8bd-1c5f-49ee-a845-ec9ec7b20910
McGree, James
45b9f60c-5ef2-4705-8882-f39bbd749f67
Drovandi, Christopher
3f7f96bd-c03b-4cd9-9102-5c03d0f1cb7e
Overstall, Antony, McGree, James and Drovandi, Christopher
(2018)
An approach for finding fully Bayesian optimal designs using normal-based approximations to loss functions.
Statistics and Computing, 28 (2), .
(doi:10.1007/s11222-017-9734-x).
Abstract
The generation of decision-theoretic Bayesian optimal designs is complicated by the significant computational challenge of minimising an analytically intractable expected loss function over a, potentially, high-dimensional design space. A new general approach for approximately finding Bayesian optimal designs is proposed which uses computationally efficient normal-based approximations to posterior summaries to aid in approximating the expected loss. This new approach is demonstrated on illustrative, yet challenging, examples including hierarchical models for blocked experiments, and experimental aims of parameter estimation and model discrimination. Where possible, the results of the proposed methodology are compared, both in terms of performance and computing time, to results from using computationally more expensive, but potentially more accurate, Monte Carlo approximations. Moreover the methodology is also applied to problems where the use of Monte Carlo approximations is computationally infeasible.
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art_10.1007_s11222-017-9734-x
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Accepted/In Press date: 5 February 2017
e-pub ahead of print date: 20 February 2017
Published date: 2018
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Statistics
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Local EPrints ID: 406213
URI: http://eprints.soton.ac.uk/id/eprint/406213
ISSN: 0960-3174
PURE UUID: 79601088-f486-4069-909e-2475003f6f51
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Date deposited: 10 Mar 2017 10:42
Last modified: 16 Mar 2024 03:53
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Author:
James McGree
Author:
Christopher Drovandi
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