Distributed Bandit Learning: Near-Optimal Regret with Efficient Communication

Yuanhao Wang, Jiachen Hu, Xiaoyu Chen, Liwei Wang

Keywords: distributed

Tues Session 1 (05:00-07:00 GMT) [Live QA] [Cal]
Tues Session 2 (08:00-10:00 GMT) [Live QA] [Cal]

Abstract: We study the problem of regret minimization for distributed bandits learning, in which $M$ agents work collaboratively to minimize their total regret under the coordination of a central server. Our goal is to design communication protocols with near-optimal regret and little communication cost, which is measured by the total amount of transmitted data. For distributed multi-armed bandits, we propose a protocol with near-optimal regret and only $O(M\log(MK))$ communication cost, where $K$ is the number of arms. The communication cost is independent of the time horizon $T$, has only logarithmic dependence on the number of arms, and matches the lower bound except for a logarithmic factor. For distributed $d$-dimensional linear bandits, we propose a protocol that achieves near-optimal regret and has communication cost of order $O\left(\left(Md+d\log \log d\right)\log T\right)$, which has only logarithmic dependence on $T$.

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