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Inicio  /  Algorithms  /  Vol: 15 Par: 12 (2022)  /  Artículo
ARTÍCULO
TITULO

Batch Acquisition for Parallel Bayesian Optimization?Application to Hydro-Energy Storage Systems Scheduling

Maxime Gobert    
Jan Gmys    
Jean-François Toubeau    
Nouredine Melab    
Daniel Tuyttens and François Vallée    

Resumen

Bayesian Optimization (BO) with Gaussian process regression is a popular framework for the optimization of time-consuming cost functions. However, the joint exploitation of BO and parallel processing capabilities remains challenging, despite intense research efforts over the last decade. In particular, the choice of a suitable batch-acquisition process, responsible for selecting promising candidate solutions for batch-parallel evaluation, is crucial. Even though some general recommendations can be found in the literature, many of its hyperparameters remain problem-specific. Moreover, the limitations of existing approaches in terms of scalability, especially for moderately expensive objective functions, are barely discussed. This work investigates five parallel BO algorithms based on different batch-acquisition processes, applied to the optimal scheduling of Underground Pumped Hydro-Energy Storage stations and classical benchmark functions. Efficient management of such energy-storage units requires parallel BO algorithms able to find solutions in a very restricted time to comply with the responsive energy markets. Our experimental results show that for the considered methods, a batch of four candidates is a good trade-off between execution speed and relevance of the candidates. Analysis of each method?s strengths and weaknesses indicates possible future research directions.

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