顺序加权均匀设计

IF 1.2 4区数学 Q2 STATISTICS & PROBABILITY

Statistics Pub Date : 2023-04-27 DOI:10.1080/02331888.2023.2204438

Yao Xiao, Shiqi Wang, H. Qin, J. Ning

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引用次数: 1

摘要

均匀设计力求在实验域中均匀地分布设计点。通过平等地对待所有因素，已经发展出一些差异来衡量均匀性。当没有关于系统的先验信息或当潜在模型完全不清楚时，它是合理的。然而，在顺序设计的情况下，实验信息，如每个因素的重要性，将从前一阶段的实验中获得。因此，加权差值比原差值更适合于后续设计的选择。本文提出了一种顺序加权均匀设计，该设计是通过最小化加权误差来实现的。基于序列实验数据，通过贝叶斯层次高斯过程方法估计各因素的相对重要性权重。几个经典的计算机仿真实例以及在电路设计中的实际应用结果表明，我们的新方法的性能优于同类方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Sequentially weighted uniform designs

Uniform designs seek to distribute design points uniformly in the experimental domain. Some discrepancies have been developed to measure the uniformity by treating all factors equally. It is reasonable when there exists no prior information about the system or when the potential model is completely unclear. However, in the situation of sequential designs, experimental information, such as the importance of each factor, would be obtained from previous stage experiments. With this fact, the weighted -discrepancy is more suitable than the original discrepancy for choosing follow-up designs. In this paper, the sequentially weighted uniform design is proposed, which is obtained by minimizing the weighted -discrepancy. The weights, indicating the relative importance of each factor, are estimated through a Bayesian hierarchical Gaussian process method based on serial experimental data. Results from several classic computer simulator examples, as well as a real application in circuit design, demonstrate that the performance of our new method surpasses that of its counterparts.

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来源期刊

Statistics 数学-统计学与概率论

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

12 months

期刊介绍： Statistics publishes papers developing and analysing new methods for any active field of statistics, motivated by real-life problems. Papers submitted for consideration should provide interesting and novel contributions to statistical theory and its applications with rigorous mathematical results and proofs. Moreover, numerical simulations and application to real data sets can improve the quality of papers, and should be included where appropriate. Statistics does not publish papers which represent mere application of existing procedures to case studies, and papers are required to contain methodological or theoretical innovation. Topics of interest include, for example, nonparametric statistics, time series, analysis of topological or functional data. Furthermore the journal also welcomes submissions in the field of theoretical econometrics and its links to mathematical statistics.