Mixture experiments: ILL-conditioning and quadratic model specification
Mixture experiments: ILL-conditioning and quadratic model specification
Well-conditioned models are important, particularly for practitioners who work with regression models for mixture experiments where parameter estimates are individually meaningful. In this article we investigate conditioning in second-order mixture models, using variance inflation factors, maximum and minimum eigenvalues of the information matrix and condition numbers to assess conditioning. A range of equivalent mixture models that lie "between" the Scheffé model (S-model) and the Kronecker model (K-model) is examined, and pseudocomponent transformations for lower bounds (L-pseudocomponents) and upper bounds (U-pseudocomponents) are also discussed. We prove that the maximum eigenvalue for the information matrix for the K-model is always smaller than that for any other model in the above range. We recommend in practice the use of the K-model, to reduce ill-conditioning, and the appropriate use of pseudocomponents.
condition number, pseudocomponents, quadratic k-model, quadratic s-model
260-268
Prescott, P.
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Dean, A.M.
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Draper, N.R.
3367284a-c1c1-45b9-94d0-bcd7eff980be
Lewis, S.M.
a69a3245-8c19-41c6-bf46-0b3b02d83cb8
2002
Prescott, P.
cf0adfdd-989b-4f15-9e60-ef85eed817b2
Dean, A.M.
9c90540a-cdf4-44ce-9d34-6b7b495a1ea3
Draper, N.R.
3367284a-c1c1-45b9-94d0-bcd7eff980be
Lewis, S.M.
a69a3245-8c19-41c6-bf46-0b3b02d83cb8
Prescott, P., Dean, A.M., Draper, N.R. and Lewis, S.M.
(2002)
Mixture experiments: ILL-conditioning and quadratic model specification.
Technometrics, 44 (3), .
(doi:10.1198/004017002188618446).
Abstract
Well-conditioned models are important, particularly for practitioners who work with regression models for mixture experiments where parameter estimates are individually meaningful. In this article we investigate conditioning in second-order mixture models, using variance inflation factors, maximum and minimum eigenvalues of the information matrix and condition numbers to assess conditioning. A range of equivalent mixture models that lie "between" the Scheffé model (S-model) and the Kronecker model (K-model) is examined, and pseudocomponent transformations for lower bounds (L-pseudocomponents) and upper bounds (U-pseudocomponents) are also discussed. We prove that the maximum eigenvalue for the information matrix for the K-model is always smaller than that for any other model in the above range. We recommend in practice the use of the K-model, to reduce ill-conditioning, and the appropriate use of pseudocomponents.
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Published date: 2002
Keywords:
condition number, pseudocomponents, quadratic k-model, quadratic s-model
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Statistics
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Local EPrints ID: 29990
URI: http://eprints.soton.ac.uk/id/eprint/29990
ISSN: 0040-1706
PURE UUID: b0efcfaf-1e82-44ab-aed2-d97567548674
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Date deposited: 10 May 2006
Last modified: 15 Mar 2024 07:36
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Author:
A.M. Dean
Author:
N.R. Draper
Author:
S.M. Lewis
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