Offline Two-Player Zero-Sum Markov Games with KL Regularization
Abstract
We study the problem of learning Nash equilibria in offline two-player zero-sum Markov games. While existing approaches often rely on explicit pessimism to address distribution shift, we show that KL regularization alone suffices to stabilize learning and guarantee convergence. We first introduce Regularized Offline Sequential Equilibrium (ROSE), a theoretical framework that achieves a fast convergence rate under \textit{unilateral concentrability}, improving over the standard rates in unregularized settings. We then propose Sequential Offline Self-play Mirror Descent (SOS-MD), a practical model-free algorithm based on least-squares value estimation and iterative self-play updates. We prove that the last iterate of SOS-MD attains the same statistical rate up to a vanishing optimization error of order in the number of self-play iterations .
Keywords
Cite
@article{arxiv.2605.13025,
title = {Offline Two-Player Zero-Sum Markov Games with KL Regularization},
author = {Claire Chen and Yuheng Zhang and Xinyu Liu and Zixuan Xie and Shuze Daniel Liu and Nan Jiang},
journal= {arXiv preprint arXiv:2605.13025},
year = {2026}
}