Construction of optimal fractional Order-of-Addition designs via block designs

Jianbin Chen; Rahul Mukerjee; Dennis K.J. Lin

doi:10.1016/j.spl.2020.108728

Construction of optimal fractional Order-of-Addition designs via block designs

Jianbin Chen, Rahul Mukerjee, Dennis K.J. Lin

Statistics

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29 Scopus citations

Abstract

Order of addition (OofA) experiments have found wide applications. Each order (run) of an OofA experiment is a permutation of m(≥2) components. It is typically infeasible to compare all the m! possible runs, especially when m is large. This calls for experimentation with a subset or fraction of these m! runs. However, only a few systematic results are available on the construction of such fractions ensuring optimality. We employ block designs to propose a systematic combinatorial construction method for optimal fractional OofA designs, and extend the method to construct highly efficient OofA designs, both in much smaller run sizes than the currently available optimal fractions.

Original language	English (US)
Article number	108728
Journal	Statistics and Probability Letters
Volume	161
DOIs	https://doi.org/10.1016/j.spl.2020.108728
State	Published - Jun 2020

All Science Journal Classification (ASJC) codes

Statistics and Probability
Statistics, Probability and Uncertainty

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10.1016/j.spl.2020.108728

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abstract = "Order of addition (OofA) experiments have found wide applications. Each order (run) of an OofA experiment is a permutation of m(≥2) components. It is typically infeasible to compare all the m! possible runs, especially when m is large. This calls for experimentation with a subset or fraction of these m! runs. However, only a few systematic results are available on the construction of such fractions ensuring optimality. We employ block designs to propose a systematic combinatorial construction method for optimal fractional OofA designs, and extend the method to construct highly efficient OofA designs, both in much smaller run sizes than the currently available optimal fractions.",

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AU - Mukerjee, Rahul

AU - Lin, Dennis K.J.

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AB - Order of addition (OofA) experiments have found wide applications. Each order (run) of an OofA experiment is a permutation of m(≥2) components. It is typically infeasible to compare all the m! possible runs, especially when m is large. This calls for experimentation with a subset or fraction of these m! runs. However, only a few systematic results are available on the construction of such fractions ensuring optimality. We employ block designs to propose a systematic combinatorial construction method for optimal fractional OofA designs, and extend the method to construct highly efficient OofA designs, both in much smaller run sizes than the currently available optimal fractions.

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Construction of optimal fractional Order-of-Addition designs via block designs

Abstract

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