Efficient Approximate Methods for Design of Experiments for Copolymer Engineering

Swagatam Mukhopadhyay
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Abstract

We develop a set of algorithms to solve a broad class of Design of Experiment (DoE) problems efficiently. Specifically, we consider problems in which one must choose a subset of polymers to test in experiments such that the learning of the polymeric design rules is optimal. This subset must be selected from a larger set of polymers permissible under arbitrary experimental design constraints. We demonstrate the performance of our algorithms by solving several pragmatic nucleic acid therapeutics engineering scenarios, where limitations in synthesis of chemically diverse nucleic acids or feasibility of measurements in experimental setups appear as constraints. Our approach focuses on identifying optimal experimental designs from a given set of experiments, which is in contrast to traditional, generative DoE methods like BIBD. Finally, we discuss how these algorithms are broadly applicable to well-established optimal DoE criteria like D-optimality.
共聚物工程实验设计的高效近似方法
我们开发了一套算法,可以高效地解决一大类实验设计(DoE)问题。具体来说,我们考虑的问题是,我们必须选择一个聚合物子集进行实验测试,从而使聚合物设计规则的学习达到最优。这个子集必须从任意实验设计约束条件下允许使用的更大聚合物集合中选出。我们通过求解各种实用的核酸治疗工程方案来证明我们算法的性能,在这些方案中,化学多样性核酸合成的限制或实验装置测量的可行性都是制约因素。我们的方法侧重于从一组给定的实验中确定最佳实验设计,这与传统的生成式 DoE 方法(如 BIBD)截然不同。最后,我们讨论了这些算法如何广泛适用于成熟的最优 DoE 标准(如 D-最优性)。
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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