Adaptive Fuzzy Resilient Control of Nonlinear Multiagent Systems Under DoS Attacks: A Dynamic Event-Triggered Method

This article proposes a novel dynamic event-triggered scheme for nonlinear multiagent systems under denial-of-service (DoS) attacks via an adaptive fuzzy resilient control method. At the beginning, fuzzy logic systems are utilized to identify the unknown system dynamics. Then, a reliable attack detection mechanism forms the basis for establishing a dynamic event-triggered protocol, where dynamic parameters are introduced to adjust the threshold of event-triggered conditions. Compared with common attack detection methods relying on residuals between system and observer values, a novel and reliable mechanism for detecting DoS attacks is proposed, grounded in the logical relationship of voltage level signals derived from the outputs of detection components. Finally, a backstepping recursive design framework is utilized for constructing an event-triggered adaptive fuzzy controller. Through the Lyapunov analysis, it is strictly demonstrated that, even under DoS attacks, the followers remain inside the leaders' defined convex hull. The effectiveness of the presented control scheme is illustrated through the simulation results.