Open Access
Optimized Signal-Driven Learning-Based Control Strategy for Decentralized Agents in Adversarial Communication Environments
4
Department of Electrical and Computer Engineering Indian Institute of Technology Delhi New Delhi, India
Abstract
The increasing deployment of decentralized multi-agent systems (MAS) in cyber-physical infrastructures has intensified concerns regarding robustness under adversarial communication environments. These environments, characterized by denial-of-service (DoS), false data injection (FDI), and coordinated cyber-attacks, significantly degrade system stability and cooperative performance. This study proposes an optimized signal-driven learning-based control strategy that integrates adaptive event-triggered mechanisms with reinforcement learning (RL) paradigms to enhance resilience and efficiency in decentralized agents. The proposed framework leverages signal-driven triggering conditions to minimize communication overhead while ensuring stability under adversarial disruptions. A hybrid architecture combining adaptive control, observer-based estimation, and actor–critic reinforcement learning is developed to dynamically compensate for uncertainties, disturbances, and malicious signal manipulations.
The theoretical foundation of the proposed strategy is established through Lyapunov stability analysis, ensuring boundedness and convergence properties despite intermittent communication failures. Additionally, the framework incorporates memory-based event-triggering and predictive estimation to mitigate the effects of DoS attacks and packet losses. The integration of learning-based optimization enables agents to adaptively refine control policies in real-time, improving performance in uncertain and adversarial environments. Comparative analysis with existing resilient and event-triggered control approaches demonstrates that the proposed method achieves superior communication efficiency, robustness, and convergence speed.
Simulation-based evaluation reveals that the optimized strategy maintains consensus and tracking performance even under severe attack scenarios, outperforming traditional model-based and purely adaptive approaches. The results indicate a significant reduction in communication load without compromising system stability. This work contributes to the advancement of resilient decentralized control by bridging signal-driven control mechanisms with learning-based optimization, offering a scalable and robust solution for next-generation intelligent networked systems.
Keywords
Decentralized control,
multi-agent systems,
adversarial communication,
event-triggered control
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