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Distributed Actor–Critic Algorithms for Multiagent Reinforcement Learning Over Directed Graphs

Pengcheng Dai, Wenwu Yu, He Wang, Simone Baldi

2022IEEE Transactions on Neural Networks and Learning Systems28 citationsDOIOpen Access PDF

Abstract

Actor-critic (AC) cooperative multiagent reinforcement learning (MARL) over directed graphs is studied in this article. The goal of the agents in MARL is to maximize the globally averaged return in a distributed way, i.e., each agent can only exchange information with its neighboring agents. AC methods proposed in the literature require the communication graphs to be undirected and the weight matrices to be doubly stochastic (more precisely, the weight matrices are row stochastic and their expectation are column stochastic). Differently from these methods, we propose a distributed AC algorithm for MARL over directed graph with fixed topology that only requires the weight matrix to be row stochastic. Then, we also study the MARL over directed graphs (possibly not connected) with changing topologies, proposing a different distributed AC algorithm based on the push-sum protocol that only requires the weight matrices to be column stochastic. Convergence of the proposed algorithms is proven for linear function approximation of the action value function. Simulations are presented to demonstrate the effectiveness of the proposed algorithms.

Topics & Concepts

Directed graphConvergence (economics)Reinforcement learningComputer scienceDistributed algorithmMulti-agent systemAlgorithmMatrix (chemical analysis)GraphMathematical optimizationFunction (biology)Core (optical fiber)MathematicsStrongly connected componentNetwork topologyStochastic approximationGraph theoryState (computer science)Weight functionSymmetric matrixApproximation algorithmLinear programmingTopology (electrical circuits)Information exchangeAlgorithm designReinforcement Learning in RoboticsAdaptive Dynamic Programming ControlGame Theory and Applications