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[ARTICLE · art-50518] src=arxiv.org ↗ pub= topic=machine-learning verified=true sentiment=↑ positive

Federated Physics-Grounded Reinforcement Learning for Distributed Stability Control in Smart Grids

Researchers introduced FedPPO-PG, a federated multi-agent reinforcement learning framework for transient stability control in smart grids. The system achieved 100% stabilization in simulations on the IEEE 39-bus benchmark, reducing mean stability time by 72.4% and control power by 7-14 times compared to centralized baselines. Each generator operates independently with no central coordinator, meeting real-time reporting standards.

read1 min views1 publishedJul 8, 2026

arXiv:2607.05553v1 Announce Type: new Abstract: Transient stability control in smart grids requires rapid post-fault damping of generator frequency and rotor angle deviations to prevent cascading failures. This paper proposes FedPPO-PG, a Federated Multi-Agent Proximal Policy Optimization framework with Physics-Grounded neighborhoods, which reformulates transient stability control as a cooperative multi-agent reinforcement learning problem optimized directly against closed-loop stability objectives. Each generator hosts an independent local actor augmented with the frequency deviations of its two most strongly coupled electrical neighbors, identified from the post-fault Kron-reduced susceptance matrix. A guided policy initialization phase warm-starts all actors from the classical decentralized controller, while a centralized critic guides advantage estimation under the centralized training--decentralized execution (CTDE) paradigm. Evaluated on a simulation of the IEEE 39-bus benchmark system across five training and three unseen fault contingencies, FedPPO-PG achieves 100% stabilization in all 24 trials, reduces mean stability time by 72.4%, and cuts the control power by 7-14 times compared to the centralized baseline. Each actor executes independently with no central coordinator at deployment, and the per-actor inference latency satisfies the IEEE/IEC 60255-118-1-2018 real-time reporting requirements.

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