ML Anthology

Transition Constrained Bayesian Optimization via Markov Decision Processes

Jose Pablo Folch, Calvin Tsay, Robert M Lee, Behrang Shafei, Weronika Ormaniec, Andreas Krause, Mark van der Wilk, Ruth Misener, Mojmír Mutný
NeurIPS 2024
doi:10.52202/079017-2799 /neurips/2024/folch2024neurips-transition/

Abstract

Bayesian optimization is a methodology to optimize black-box functions. Traditionally, it focuses on the setting where you can arbitrarily query the search space. However, many real-life problems do not offer this flexibility; in particular, the search space of the next query may depend on previous ones. Example challenges arise in the physical sciences in the form of local movement constraints, required monotonicity in certain variables, and transitions influencing the accuracy of measurements. Altogether, such transition constraints necessitate a form of planning. This work extends classical Bayesian optimization via the framework of Markov Decision Processes. We iteratively solve a tractable linearization of our utility function using reinforcement learning to obtain a policy that plans ahead for the entire horizon. This is a parallel to the optimization of an acquisition function in policy space. The resulting policy is potentially history-dependent and non-Markovian. We showcase applications in chemical reactor optimization, informative path planning, machine calibration, and other synthetic examples.

PDF NeurIPS OpenReview Semantic Scholar

Cite

Text

Folch et al. "Transition Constrained Bayesian Optimization via Markov Decision Processes." Neural Information Processing Systems, 2024. doi:10.52202/079017-2799

Markdown

[Folch et al. "Transition Constrained Bayesian Optimization via Markov Decision Processes." Neural Information Processing Systems, 2024.](https://mlanthology.org/neurips/2024/folch2024neurips-transition/) doi:10.52202/079017-2799

BibTeX

@inproceedings{folch2024neurips-transition,
  title     = {{Transition Constrained Bayesian Optimization via Markov Decision Processes}},
  author    = {Folch, Jose Pablo and Tsay, Calvin and Lee, Robert M and Shafei, Behrang and Ormaniec, Weronika and Krause, Andreas and van der Wilk, Mark and Misener, Ruth and Mutný, Mojmír},
  booktitle = {Neural Information Processing Systems},
  year      = {2024},
  doi       = {10.52202/079017-2799},
  url       = {https://mlanthology.org/neurips/2024/folch2024neurips-transition/}
}