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Consensus-based Decentralized Multi-agent Reinforcement Learning for Random Access Network Optimization

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arxiv 2508.07001 v1 pith:CFFI2HYF submitted 2025-08-09 cs.NI cs.AIcs.LG

Consensus-based Decentralized Multi-agent Reinforcement Learning for Random Access Network Optimization

classification cs.NI cs.AIcs.LG
keywords marlnetworkaccesscentralizeddecentralizeddesigndeviceslearning
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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With wireless devices increasingly forming a unified smart network for seamless, user-friendly operations, random access (RA) medium access control (MAC) design is considered a key solution for handling unpredictable data traffic from multiple terminals. However, it remains challenging to design an effective RA-based MAC protocol to minimize collisions and ensure transmission fairness across the devices. While existing multi-agent reinforcement learning (MARL) approaches with centralized training and decentralized execution (CTDE) have been proposed to optimize RA performance, their reliance on centralized training and the significant overhead required for information collection can make real-world applications unrealistic. In this work, we adopt a fully decentralized MARL architecture, where policy learning does not rely on centralized tasks but leverages consensus-based information exchanges across devices. We design our MARL algorithm over an actor-critic (AC) network and propose exchanging only local rewards to minimize communication overhead. Furthermore, we provide a theoretical proof of global convergence for our approach. Numerical experiments show that our proposed MARL algorithm can significantly improve RA network performance compared to other baselines.

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