Tail Distribution of Regret in Optimistic Reinforcement Learning

Abstract

We derive instance-dependent tail bounds for the regret of optimism-based reinforcement learning in finite-horizon tabular Markov decision processes with unknown transition dynamics. We first study a UCBVI-type (model-based) algorithm and characterize the tail distribution of the cumulative regret RK over K episodes via explicit bounds on P(RK x), going beyond analyses limited to E[RK] or a single high-probability quantile. We analyze two natural exploration-bonus schedules for UCBVI: (i) a K-dependent scheme that explicitly incorporates the total number of episodes K, and (ii) a K-independent (anytime) scheme that depends only on the current episode index. We then complement the model-based results with an analysis of optimistic Q-learning (model-free) under a K-dependent bonus schedule. Across both the model-based and model-free settings, we obtain upper bounds on P(RK x) with a distinctive two-regime structure: a sub-Gaussian tail starting from an instance-dependent scale up to a transition threshold, followed by a sub-Weibull tail beyond that point. We further derive corresponding instance-dependent bounds on the expected regret E[RK]. The proposed algorithms depend on a tuning parameter α, which balances the expected regret and the range over which the regret exhibits sub-Gaussian decay.

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