Weighted space-filling designs
Weighted space-filling designs
Many computer models or simulators have probabilistic dependencies between their input variables, which if not accounted for during design selection, may result in a large numbers of simulator runs being required for analysis. We propose a method which incorporates known dependencies between input variables into design selection for simulators and demonstrate the benefits of this approach via a simulator for atmospheric dispersion. We quantify the benefit of the new techniques over standard space-filling and Monte Carlo Simulation. The proposed methods are adaptations of computer-generated spread and coverage space-filling designs, with “distance” between two input points redefined to include a weight function. This weight function reflects any known multivariate dependencies between input variables and prior information on the design region. The methods can include quantitative and qualitative variables, and different types of prior information. Novel graphical methods, adapted from fraction of design space plots, are used to assess and compare the designs
249-263
Bowman, Veronica E.
d70e9b28-2e02-4527-8cc5-79cba73ce982
Woods, David C.
ae21f7e2-29d9-4f55-98a2-639c5e44c79c
2013
Bowman, Veronica E.
d70e9b28-2e02-4527-8cc5-79cba73ce982
Woods, David C.
ae21f7e2-29d9-4f55-98a2-639c5e44c79c
Bowman, Veronica E. and Woods, David C.
(2013)
Weighted space-filling designs.
Journal of Simulation, 7 (4), .
(doi:10.1057/jos.2013.8).
Abstract
Many computer models or simulators have probabilistic dependencies between their input variables, which if not accounted for during design selection, may result in a large numbers of simulator runs being required for analysis. We propose a method which incorporates known dependencies between input variables into design selection for simulators and demonstrate the benefits of this approach via a simulator for atmospheric dispersion. We quantify the benefit of the new techniques over standard space-filling and Monte Carlo Simulation. The proposed methods are adaptations of computer-generated spread and coverage space-filling designs, with “distance” between two input points redefined to include a weight function. This weight function reflects any known multivariate dependencies between input variables and prior information on the design region. The methods can include quantitative and qualitative variables, and different types of prior information. Novel graphical methods, adapted from fraction of design space plots, are used to assess and compare the designs
More information
Published date: 2013
Organisations:
Statistics, Statistical Sciences Research Institute
Identifiers
Local EPrints ID: 347909
URI: http://eprints.soton.ac.uk/id/eprint/347909
ISSN: 1747-7778
PURE UUID: 22da4975-661c-46e4-b78d-c63d11eeeeb8
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Date deposited: 08 Feb 2013 15:32
Last modified: 15 Mar 2024 03:05
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Contributors
Author:
Veronica E. Bowman
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