Gibbs optimal design of experiments
Gibbs optimal design of experiments
Bayesian optimal design is a well-established approach to planning experiments. A distribution for the responses, i.e. a statistical model, is assumed which is dependent on unknown parameters. A utility function is then specified giving gain in information in estimating the true values of the parameters, using the Bayesian posterior distribution. A Bayesian optimal design is given by maximising expectation of the utility with respect to the distribution implied by statistical model and prior distribution for the true parameter values. The approach accounts for the experimental aim, via specification of the utility, and of assumed sources of uncertainty. However, it is predicated on the statistical model being correct. Recently, a new type of statistical inference, known as Gibbs inference, has been proposed. This is Bayesian-like, i.e. uncertainty for unknown quantities is represented by a posterior distribution, but does not necessarily require specification of a statistical model. The resulting inference is less sensitive to misspecification of the statistical model. This paper introduces Gibbs optimal design: a framework for optimal design of experiments under Gibbs inference. A computational approach to find designs in practice is outlined and the framework is demonstrated on exemplars including linear models, and experiments with count and time-to-event responses.
Overstall, Antony M.
c1d6c8bd-1c5f-49ee-a845-ec9ec7b20910
Holloway-Brown, Jacinta
7ca2f256-ac0b-4d1e-a270-a57921e5334e
McGree, James M.
1dc0b3b3-eab8-4a53-bada-cf060eef7b2d
Overstall, Antony M.
c1d6c8bd-1c5f-49ee-a845-ec9ec7b20910
Holloway-Brown, Jacinta
7ca2f256-ac0b-4d1e-a270-a57921e5334e
McGree, James M.
1dc0b3b3-eab8-4a53-bada-cf060eef7b2d
Overstall, Antony M., Holloway-Brown, Jacinta and McGree, James M.
(2025)
Gibbs optimal design of experiments.
Statistical Science.
(In Press)
Abstract
Bayesian optimal design is a well-established approach to planning experiments. A distribution for the responses, i.e. a statistical model, is assumed which is dependent on unknown parameters. A utility function is then specified giving gain in information in estimating the true values of the parameters, using the Bayesian posterior distribution. A Bayesian optimal design is given by maximising expectation of the utility with respect to the distribution implied by statistical model and prior distribution for the true parameter values. The approach accounts for the experimental aim, via specification of the utility, and of assumed sources of uncertainty. However, it is predicated on the statistical model being correct. Recently, a new type of statistical inference, known as Gibbs inference, has been proposed. This is Bayesian-like, i.e. uncertainty for unknown quantities is represented by a posterior distribution, but does not necessarily require specification of a statistical model. The resulting inference is less sensitive to misspecification of the statistical model. This paper introduces Gibbs optimal design: a framework for optimal design of experiments under Gibbs inference. A computational approach to find designs in practice is outlined and the framework is demonstrated on exemplars including linear models, and experiments with count and time-to-event responses.
Text
robust_design
- Accepted Manuscript
More information
Accepted/In Press date: 29 March 2025
Identifiers
Local EPrints ID: 500708
URI: http://eprints.soton.ac.uk/id/eprint/500708
ISSN: 0883-4237
PURE UUID: 48d2a18b-f99b-4de5-b9d2-dd155d5e0527
Catalogue record
Date deposited: 12 May 2025 16:31
Last modified: 12 Jun 2025 04:13
Export record
Contributors
Author:
Jacinta Holloway-Brown
Author:
James M. McGree
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
