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Paper detail

A Generalized Minimax Q-learning Algorithm for Two-Player Zero-Sum Stochastic Games

We consider the problem of two-player zero-sum games. This problem is formulated as a min-max Markov game in the literature. The solution of this game, which is the min-max payoff, starting from a given state is called the min-max value of the state. In this work, we compute the solution of the two-player zero-sum game utilizing the technique of successive relaxation that has been successfully applied in the literature to compute a faster value iteration algorithm in the context of Markov Decision Processes. We extend the concept of successive relaxation to the setting of two-player zero-sum games. We show that, under a special structure on the game, this technique facilitates faster computation of the min-max value of the states. We then derive a generalized minimax Q-learning algorithm that computes the optimal policy when the model information is not known. Finally, we prove the convergence of the proposed generalized minimax Q-learning algorithm utilizing stochastic approximation techniques, under an assumption on the boundedness of iterates. Through experiments, we demonstrate the effectiveness of our proposed algorithm.

preprint2022arXivOpen access
Raghuram Bharadwaj DiddigiChandramouli KamanchiShalabh Bhatnagar
Computer Science and Game TheoryMachine Learning
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Raghuram Bharadwaj DiddigiChandramouli KamanchiShalabh Bhatnagar

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