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Main Authors: Hameed, Mohammed Saif Ismail, Ares, Jose Núñez, Schoen, Eric D., Goos, Peter
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.13336
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author Hameed, Mohammed Saif Ismail
Ares, Jose Núñez
Schoen, Eric D.
Goos, Peter
author_facet Hameed, Mohammed Saif Ismail
Ares, Jose Núñez
Schoen, Eric D.
Goos, Peter
contents For run sizes that are a multiple of four, the literature offers many two-level designs that are D- and A-optimal for the main-effects model and minimize the aliasing between main effects and interaction effects and among interaction effects. For run sizes that are not a multiple of four, no conclusive results are known. In this paper, we propose two algorithms that generate all non-isomorphic D- and A-optimal main-effects designs for run sizes that are one and two more than a multiple of four. We enumerate all such designs for run sizes up to 18, report the numbers of designs we obtained, and identify those that minimize the aliasing between main effects and interaction effects and among interaction effects. Finally, we compare the minimally aliased designs we found with benchmark designs from the literature.
format Preprint
id arxiv_https___arxiv_org_abs_2409_13336
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Two-level D- and A-optimal main-effects designs with run sizes one and two more than a multiple of four
Hameed, Mohammed Saif Ismail
Ares, Jose Núñez
Schoen, Eric D.
Goos, Peter
Methodology
Combinatorics
For run sizes that are a multiple of four, the literature offers many two-level designs that are D- and A-optimal for the main-effects model and minimize the aliasing between main effects and interaction effects and among interaction effects. For run sizes that are not a multiple of four, no conclusive results are known. In this paper, we propose two algorithms that generate all non-isomorphic D- and A-optimal main-effects designs for run sizes that are one and two more than a multiple of four. We enumerate all such designs for run sizes up to 18, report the numbers of designs we obtained, and identify those that minimize the aliasing between main effects and interaction effects and among interaction effects. Finally, we compare the minimally aliased designs we found with benchmark designs from the literature.
title Two-level D- and A-optimal main-effects designs with run sizes one and two more than a multiple of four
topic Methodology
Combinatorics
url https://arxiv.org/abs/2409.13336