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Main Authors: Zheng, Jiayi, Rios, Nicholas
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.03504
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author Zheng, Jiayi
Rios, Nicholas
author_facet Zheng, Jiayi
Rios, Nicholas
contents In the chemical, pharmaceutical, and food industries, sometimes the order of adding a set of components has an impact on the final product. These are instances of the order-of-addition (OofA) problem, which aims to find the optimal sequence of the components. Extensive research on this topic has been conducted, but almost all designs are found by optimizing the $D-$optimality criterion. However, when prediction of the response is important, there is still a need for $I-$optimal designs. A new model for OofA experiments is presented that uses transition effects to model the effect of order on the response, and the model is extended to cover cases where block-wise constraints are placed on the order of addition. Several algorithms are used to find both $D-$ and $I-$efficient designs under this new model for many run sizes and for large numbers of components. Finally, two examples are shown to illustrate the effectiveness of the proposed designs and model at identifying the optimal order of addition, even under block-wise constraints.
format Preprint
id arxiv_https___arxiv_org_abs_2411_03504
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Exact Designs for OofA Experiments Under a Transition-Effect Model
Zheng, Jiayi
Rios, Nicholas
Methodology
In the chemical, pharmaceutical, and food industries, sometimes the order of adding a set of components has an impact on the final product. These are instances of the order-of-addition (OofA) problem, which aims to find the optimal sequence of the components. Extensive research on this topic has been conducted, but almost all designs are found by optimizing the $D-$optimality criterion. However, when prediction of the response is important, there is still a need for $I-$optimal designs. A new model for OofA experiments is presented that uses transition effects to model the effect of order on the response, and the model is extended to cover cases where block-wise constraints are placed on the order of addition. Several algorithms are used to find both $D-$ and $I-$efficient designs under this new model for many run sizes and for large numbers of components. Finally, two examples are shown to illustrate the effectiveness of the proposed designs and model at identifying the optimal order of addition, even under block-wise constraints.
title Exact Designs for OofA Experiments Under a Transition-Effect Model
topic Methodology
url https://arxiv.org/abs/2411.03504