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Safe real-time optimization using multi-fidelity guassian processes

Authors :
Petsagkourakis, P
Chachuat, B
Rio-Chanona, EAD
Engineering & Physical Science Research Council (EPSRC)
Publication Year :
2022
Publisher :
ArXiv, 2022.

Abstract

This paper proposes a new class of real-time optimization schemes to overcome system-model mismatch of uncertain processes. This work's novelty lies in integrating derivative-free optimization schemes and multi-fidelity Gaussian processes within a Bayesian optimization framework. The proposed scheme uses two Gaussian processes for the stochastic system, one emulates the (known) process model, and another, the true system through measurements. In this way, low fidelity samples can be obtained via a model, while high fidelity samples are obtained through measurements of the system. This framework captures the system's behavior in a non-parametric fashion while driving exploration through acquisition functions. The benefit of using a Gaussian process to represent the system is the ability to perform uncertainty quantification in real-time and allow for chance constraints to be satisfied with high confidence. This results in a practical approach that is illustrated in numerical case studies, including a semi-batch photobioreactor optimization problem.

Subjects

Subjects :
math.OC
cs.LG

Details

Database :
OpenAIRE
Accession number :
edsair.od......1032..c26b08bde4ce177450d932f575f25025