Related papers: Targeted Adaptive Design

Targeted Adaptive Design

URL: http://arxiv.org/abs/2205.14208v3
Date: Tue, 23 Jul 2024 16:16:32 GMT
Title: Targeted Adaptive Design
Authors: Carlo Graziani, Marieme Ngom,
Abstract summary: Modern manufacturing and advanced materials design often require searches of relatively high-dimensional process control parameter spaces. We describe targeted adaptive design (TAD), a new algorithm that performs this sampling task efficiently. TAD embodies the exploration-exploitation tension in a manner that recalls, but is essentially different from, Bayesian optimization and optimal experimental design.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Modern advanced manufacturing and advanced materials design often require searches of relatively high-dimensional process control parameter spaces for settings that result in optimal structure, property, and performance parameters. The mapping from the former to the latter must be determined from noisy experiments or from expensive simulations. We abstract this problem to a mathematical framework in which an unknown function from a control space to a design space must be ascertained by means of expensive noisy measurements, which locate optimal control settings generating desired design features within specified tolerances, with quantified uncertainty. We describe targeted adaptive design (TAD), a new algorithm that performs this sampling task efficiently. TAD creates a Gaussian process surrogate model of the unknown mapping at each iterative stage, proposing a new batch of control settings to sample experimentally and optimizing the updated log-predictive likelihood of the target design. TAD either stops upon locating a solution with uncertainties that fit inside the tolerance box or uses a measure of expected future information to determine that the search space has been exhausted with no solution. TAD thus embodies the exploration-exploitation tension in a manner that recalls, but is essentially different from, Bayesian optimization and optimal experimental design.

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