Distributed Bayesian: a continuous Distributed Constraint Optimization Problem solver

• Main Authors: Fransman, Jeroen, Sijs, Joris, Dol, Henry, Theunissen, Erik, De Schutter, Bart
• Format: Journal Article
• Language: English
• Published: 08.02.2020
• Subjects: Mathematics - Optimization and Control
• DOI: 10.48550/arxiv.2002.03252

In this work, the novel Distributed Bayesian (D-Bay) algorithm is presented for solving multi-agent problems within the continuous Distributed Constraint Optimization Problem (DCOP) framework. This framework extends the classical DCOP framework towards utility functions with continuous domains. Traditional DCOP solvers discretize the continuous domains, which increases the problem size exponentially. D-Bay overcomes this problem by utilizing Bayesian optimization for the adaptive sampling of variables to avoid discretization entirely. We theoretically show that D-Bay converges to the global optimum of the DCOP for Lipschitz continuous utility functions. The performance of the algorithm is evaluated empirically based on the sample efficiency. The proposed algorithm is compared to a centralized approach with equidistant discretization of the continuous domains for the sensor coordination problem. We find that our algorithm generates better solutions while requiring less samples.