Nearly Minimax Optimal Reinforcement Learning for Discounted MDPs


Abstract in English

We study the reinforcement learning problem for discounted Markov Decision Processes (MDPs) under the tabular setting. We propose a model-based algorithm named UCBVI-$gamma$, which is based on the emph{optimism in the face of uncertainty principle} and the Bernstein-type bonus. We show that UCBVI-$gamma$ achieves an $tilde{O}big({sqrt{SAT}}/{(1-gamma)^{1.5}}big)$ regret, where $S$ is the number of states, $A$ is the number of actions, $gamma$ is the discount factor and $T$ is the number of steps. In addition, we construct a class of hard MDPs and show that for any algorithm, the expected regret is at least $tilde{Omega}big({sqrt{SAT}}/{(1-gamma)^{1.5}}big)$. Our upper bound matches the minimax lower bound up to logarithmic factors, which suggests that UCBVI-$gamma$ is nearly minimax optimal for discounted MDPs.

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