Improved No-Regret Algorithms for Stochastic Shortest Path with Linear MDP

Abstract

We introduce two new no-regret algorithms for the stochastic shortest path (SSP) problem with a linear MDP that significantly improve over the only existing results of (Vial et al., 2021). Our first algorithm is computationally efficient and achieves a regret bound O(d3B2T K), where d is the dimension of the feature space, B and T are upper bounds of the expected costs and hitting time of the optimal policy respectively, and K is the number of episodes. The same algorithm with a slight modification also achieves logarithmic regret of order O(d3B4c2gap5dB Kc ), where gap is the minimum sub-optimality gap and c is the minimum cost over all state-action pairs. Our result is obtained by developing a simpler and improved analysis for the finite-horizon approximation of (Cohen et al., 2021) with a smaller approximation error, which might be of independent interest. On the other hand, using variance-aware confidence sets in a global optimization problem, our second algorithm is computationally inefficient but achieves the first "horizon-free" regret bound O(d3.5BK) with no polynomial dependency on T or 1/c, almost matching the (dBK) lower bound from (Min et al., 2021).

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