English

$Q_B$-Optimal Two-Level Designs

Methodology 2025-04-08 v1

Abstract

Two-level designs are widely used for screening experiments where the goal is to identify a few active factors which have major effects. Orthogonal two-level designs in which all factors are level-balance and each of the four level combinations of any pair of factors appears equally often are commonly used. In this paper, we apply the model-robust QBQ_B criterion introduced by Tsai, Gilmour and Mead (2007) to the selection of optimal two-level screening designs without the requirements of level-balance and pairwise orthogonality. The criterion incorporates experimenter's prior belief on how likely a factor is to be active and recommends different designs under different priors, and without the requirement of level-balance and pairwise orthogonality, a wider range of designs is possible. A coordinate exchange algorithm is developed for the construction of QBQ_B-optimal designs for given priors.

Keywords

Cite

@article{arxiv.2504.05072,
  title  = {$Q_B$-Optimal Two-Level Designs},
  author = {Pi-Wen Tsai and Steven G. Gilmour},
  journal= {arXiv preprint arXiv:2504.05072},
  year   = {2025}
}
R2 v1 2026-06-28T22:49:26.298Z