Modelling in mixture experiments including interaction with process variables
Modelling in mixture experiments including interaction with process variables
In many practical situations where experiments with mixtures are carried out, it is sometimes necessary to consider running the experiment at different levels, or combinations of levels, of one or more process variables. It is common practice to use a polynomial model for the responses produced from a mixtures simplex centroid or simplex lattice design with quadratic or cubic terms to describe the effects of the mixture ingredients. It is also usual to investigate the process variables using a factorial design, or a suitable response surface design such as a central composite design, with a model including main effects and interaction terms. There are various ways of combining these models to investigate the joint behaviour of the mixture ingredients and the process variables simultaneously. In this paper, we consider several such models and propose a particular model involving polynomial terms for the mixture and process variables and first and second order interaction terms involving both mixture and process variables. The model building strategy is illustrated using an example involving three mixture ingredients and two process variables in a bread making experiment.
factorial design, mixture ingredients, process variables, response surface designs, simplex lattice design
87-103
Prescott, Phillip
cf0adfdd-989b-4f15-9e60-ef85eed817b2
2004
Prescott, Phillip
cf0adfdd-989b-4f15-9e60-ef85eed817b2
Prescott, Phillip
(2004)
Modelling in mixture experiments including interaction with process variables.
Quality Technology and Quantitative Management, 1 (1), .
Abstract
In many practical situations where experiments with mixtures are carried out, it is sometimes necessary to consider running the experiment at different levels, or combinations of levels, of one or more process variables. It is common practice to use a polynomial model for the responses produced from a mixtures simplex centroid or simplex lattice design with quadratic or cubic terms to describe the effects of the mixture ingredients. It is also usual to investigate the process variables using a factorial design, or a suitable response surface design such as a central composite design, with a model including main effects and interaction terms. There are various ways of combining these models to investigate the joint behaviour of the mixture ingredients and the process variables simultaneously. In this paper, we consider several such models and propose a particular model involving polynomial terms for the mixture and process variables and first and second order interaction terms involving both mixture and process variables. The model building strategy is illustrated using an example involving three mixture ingredients and two process variables in a bread making experiment.
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Published date: 2004
Keywords:
factorial design, mixture ingredients, process variables, response surface designs, simplex lattice design
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Statistics
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Local EPrints ID: 29998
URI: http://eprints.soton.ac.uk/id/eprint/29998
PURE UUID: 12a41c88-988d-417b-8f8e-8f8a10702907
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Date deposited: 12 May 2006
Last modified: 11 Dec 2021 15:16
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