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arxiv: 2303.07212 · v1 · pith:EERBW7YA · submitted 2023-03-13 · math.OC

Distributed Non-Bayesian Learning for Games with Incomplete Information

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classification math.OC
keywords parameterlearningbeliefdistributedstrategybeliefscommonconverge
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We consider distributed learning problem in games with an unknown cost-relevant parameter, and aim to find the Nash equilibrium while learning the true parameter. Inspired by the social learning literature, we propose a distributed non-Bayesian rule to learn the parameter (each agent maintains a belief on the parameter and updates the belief according to the received noisy cost), combined with best response dynamics for strategy update. The difficulty of the analysis lies mainly in the fact that the parameter learning process and strategy update process are coupled. We first prove that agents' beliefs converge to a common belief and the strategy profiles converge to a Nash equilibrium under this common belief. On this basis, we further show that the beliefs eventually concentrate on the true parameter.

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