Sliced Full Factorial-Based Latin Hypercube Designs as a Framework for a Batch Sequential Design Algorithm

When fitting complex models, such as finite element or discrete event simulations, the experiment design should exhibit desirable properties of both projectivity and orthogonality. To reduce experimental effort, sequential design strategies allow experimenters to collect data only until some measure...

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Bibliographic Details
Published in:Technometrics 2017-01, Vol.59 (1), p.11-22
Main Authors: Duan, Weitao, Ankenman, Bruce E., Sanchez, Susan M., Sanchez, Paul J.
Format: Article
Language:English
Subjects:
Algorithms
Computer experiments
Computer model
Computer simulation
Design
Design of experiments
Discrete event systems
Experiments
Finite element method
Hypercubes
Metamodels
Orthogonality
Simulation
Simulation experiments
Space filling design
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Summary:When fitting complex models, such as finite element or discrete event simulations, the experiment design should exhibit desirable properties of both projectivity and orthogonality. To reduce experimental effort, sequential design strategies allow experimenters to collect data only until some measure of prediction precision is reached. In this article, we present a batch sequential experiment design method that uses sliced full factorial-based Latin hypercube designs (sFFLHDs), which are an extension to the concept of sliced orthogonal array-based Latin hypercube designs (OALHDs). At all stages of the sequential design, good univariate stratification is achieved. The structure of the FFLHDs also tends to produce uniformity in higher dimensions, especially at certain stages of the design. We show that our batch sequential design approach has good sampling and fitting qualities through both empirical studies and theoretical arguments. Supplementary materials are available online.
ISSN:0040-1706
1537-2723
DOI:10.1080/00401706.2015.1108233