Robust simulation design for generalized linear models in conditions of heteroscedasticity or correlation
Robust simulation design for generalized linear models in conditions of heteroscedasticity or correlation
A meta-model of the input-output data of a computationally expensive simulation is often employed for prediction, optimization, or sensitivity analysis purposes. Fitting is enabled by a designed experiment, and for computationally expensive simulations, the design efficiency is of importance. Heteroscedasticity in simulation output is common, and it is potentially beneficial to induce dependence through the reuse of pseudo-random number streams to reduce the variance of the meta-model parameter estimators. In this paper, we develop a computational approach to robust design for computer experiments without the need to assume independence or identical distribution of errors. Through explicit inclusion of the variance or correlation structures into the meta-model distribution, either maximum likelihood estimation or generalized estimating equations can be employed to obtain an appropriate Fisher information matrix. Robust designs can then be computationally sought which maximize some relevant summary measure of this matrix, averaged across a prior distribution of any unknown parameters.
37-48
Gill, Andrew
28e06a24-ce51-4f0e-ae8b-7f57bd6451bf
Warne, David J.
8370086f-f528-451a-bae2-5fbbfb115fac
McGrory, Clare
a93fde7c-92d7-4eda-83a1-b71922e6283f
McGree, James M.
1dc0b3b3-eab8-4a53-bada-cf060eef7b2d
Overstall, Antony M.
09be306c-8513-46dc-9321-4f3439fbc4cb
Gill, Andrew
28e06a24-ce51-4f0e-ae8b-7f57bd6451bf
Warne, David J.
8370086f-f528-451a-bae2-5fbbfb115fac
McGrory, Clare
a93fde7c-92d7-4eda-83a1-b71922e6283f
McGree, James M.
1dc0b3b3-eab8-4a53-bada-cf060eef7b2d
Overstall, Antony M.
09be306c-8513-46dc-9321-4f3439fbc4cb
Gill, Andrew, Warne, David J., McGrory, Clare, McGree, James M. and Overstall, Antony M.
(2022)
Robust simulation design for generalized linear models in conditions of heteroscedasticity or correlation.
Feng, B., Pedrielli, G., Peng, Y., Shashaani, S., Song, E., Corlu, C.G., Lee, L.H., Chew, E.P., Roeder, T. and Lendermann, P.
(eds.)
In Proceedings of the 2022 Winter Simulation Conference, WSC 2022.
vol. 2022-December,
IEEE.
.
(In Press)
(doi:10.1109/WSC57314.2022.10015326).
Record type:
Conference or Workshop Item
(Paper)
Abstract
A meta-model of the input-output data of a computationally expensive simulation is often employed for prediction, optimization, or sensitivity analysis purposes. Fitting is enabled by a designed experiment, and for computationally expensive simulations, the design efficiency is of importance. Heteroscedasticity in simulation output is common, and it is potentially beneficial to induce dependence through the reuse of pseudo-random number streams to reduce the variance of the meta-model parameter estimators. In this paper, we develop a computational approach to robust design for computer experiments without the need to assume independence or identical distribution of errors. Through explicit inclusion of the variance or correlation structures into the meta-model distribution, either maximum likelihood estimation or generalized estimating equations can be employed to obtain an appropriate Fisher information matrix. Robust designs can then be computationally sought which maximize some relevant summary measure of this matrix, averaged across a prior distribution of any unknown parameters.
Text
2212.09999
- Accepted Manuscript
More information
Accepted/In Press date: 20 December 2022
Additional Information:
Publisher Copyright:
© 2022 IEEE.
Venue - Dates:
2022 Winter Simulation Conference, WSC 2022, , Guilin, China, 2022-12-11 - 2022-12-14
Identifiers
Local EPrints ID: 475966
URI: http://eprints.soton.ac.uk/id/eprint/475966
ISSN: 0891-7736
PURE UUID: a6d50e11-d252-4bf0-9e4e-7d291fc4ec1a
Catalogue record
Date deposited: 03 Apr 2023 16:36
Last modified: 17 Mar 2024 00:52
Export record
Altmetrics
Contributors
Author:
Andrew Gill
Author:
David J. Warne
Author:
Clare McGrory
Author:
James M. McGree
Author:
Antony M. Overstall
Editor:
B. Feng
Editor:
G. Pedrielli
Editor:
Y. Peng
Editor:
S. Shashaani
Editor:
E. Song
Editor:
C.G. Corlu
Editor:
L.H. Lee
Editor:
E.P. Chew
Editor:
T. Roeder
Editor:
P. Lendermann
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