Replication in random translation designs

Pub Date : 2024-08-03 DOI:10.1016/j.spl.2024.110229

Timothy W. Waite

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Abstract

Replication is a commonly recommended feature of experimental designs. However, its impact in model-robust design is relatively under-explored; indeed, replication is impossible within the current formulation of random translation designs, which were introduced recently for model-robust prediction. Here we extend the framework of random translation designs to allow replication, and quantify the resulting performance impact. The extension permits a simplification of our earlier heuristic for constructing random translation strategies from a traditional $V$ -optimal design. Namely, in the previous formulation any replicates of the $V$ -optimal design first had to be split up before a random translation can be applied to the design points. With the new framework we can instead preserve the replicates instead if we so wish. Surprisingly, we find that in low-dimensional problems it is often substantially more efficient to continue to split replicates, while in high-dimensional problems it can be substantially better to retain replicates.

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随机翻译设计中的复制

复制是通常推荐的实验设计特征。事实上，在目前的随机翻译设计中，复制是不可能的，而随机翻译设计是最近为稳健模型预测而引入的。在这里，我们扩展了随机翻译设计的框架，允许复制，并量化了由此产生的性能影响。通过扩展，我们可以简化之前从传统 V 最佳设计中构建随机翻译策略的启发式方法。也就是说，在之前的方法中，V 型最优设计的任何副本都必须先拆分，然后才能对设计点进行随机平移。而在新框架下，我们可以按照自己的意愿保留副本。令人惊讶的是，我们发现在低维问题中，继续拆分副本往往会更有效率，而在高维问题中，保留副本可能会更好。

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