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Paper detail

Multi-Agent Low-Dimensional Linear Bandits

We study a multi-agent stochastic linear bandit with side information, parameterized by an unknown vector $θ^* \in \mathbb{R}^d$. The side information consists of a finite collection of low-dimensional subspaces, one of which contains $θ^*$. In our setting, agents can collaborate to reduce regret by sending recommendations across a communication graph connecting them. We present a novel decentralized algorithm, where agents communicate subspace indices with each other and each agent plays a projected variant of LinUCB on the corresponding (low-dimensional) subspace. By distributing the search for the optimal subspace across users and learning of the unknown vector by each agent in the corresponding low-dimensional subspace, we show that the per-agent finite-time regret is much smaller than the case when agents do not communicate. We finally complement these results through simulations.

preprint2022arXivOpen access
Ronshee ChawlaAbishek SankararamanSanjay Shakkottai
Social and Information NetworksMachine LearningDistributed, Parallel, and Cluster Computing
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Ronshee ChawlaAbishek SankararamanSanjay Shakkottai

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