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基于自适应事件触发控制的复杂动态网络在双通道网络威胁下的安全同步

Secure Synchronization of Complex Dynamic Networks via Adaptive Event-Triggered Control Against Dual-Channel Cyber Threats

IEEE Transactions on Cybernetics · 2026
被引 0
ABS 3

中文导读

针对遭受拒绝服务攻击和欺骗攻击的离散时间复杂动态网络,提出一种自适应事件触发控制方案,通过动态调整触发阈值实现全局同步,并推导出线性矩阵不等式条件用于控制器设计。

Abstract

This article develops an adaptive event-triggered control (AETC) scheme for achieving global synchronization in discrete-time complex dynamical networks (CDNs) subject to Markovian switching with partially unknown transition probabilities (TPs). The study establishes an enhanced CDNs model that simultaneously accounts for nonlinear dynamics, time-varying delays, and probabilistic switching uncertainties. A novel resilient control architecture is designed to mitigate dual-channel cyber threats, including Bernoulli-distributed denial-of-service (DoS) attacks and deception attacks occurring in both sensor-to-controller and controller-to-actuator communication links. The proposed AETC mechanism introduces dynamically adjustable triggering thresholds that respond to both network state variations and attack intensity levels. Through the construction of advanced Lyapunov-Krasovskii functionals, delay-dependent stability conditions are derived, culminating in tractable linear matrix inequality (LMI) formulations for synchronization and explicit controller synthesis. Numerical results demonstrate superior performance in communication efficiency and attack resilience.

复杂动态网络自适应控制事件触发控制网络安全同步控制