online read us now
Paper details
Number 1 - March 2025
Volume 35 - 2025
Event-triggered fixed-time resilient control for mobile sensor networks with a Sybil attack and input delay
Ding Zhou, Lei He, Zhigang Cao, An Zhang, Xiaopeng Han
Abstract
This study is devoted to the resilient control problem of a mobile sensor network with a Sybil attack and input delay. First, a
fixed-time observer is constructed to estimate the state exactly, which makes it possible to calculate the settling time. Then,
the delayed system is transformed into a delay-free system by introducing Artstein’s transformation, and a confidence
metric is used to tackle the Sybil attack problem, which requires no additional data storage beyond signals. Furthermore, a
novel distributed event-triggered fixed-time control scheme is proposed, and a triggering function is developed to generate
triggering events asynchronously. Using the presented triggering function, each sensor communicates in discrete time,
which is fully continuous-communication free. Several sufficient conditions are obtained, and a rigorous proof is given
using Lyapunov stability and fixed-time stability theories. Finally, simulation results are presented to demonstrate the
efficiency of the theoretical results such as the flocking context.
Keywords
resilient consensus, event-triggered control, Sybil attack, input delay