欺骗攻击下不确定非线性全状态约束信息物理系统的自适应事件触发控制

Adaptive Event-Triggered Control for Uncertain Nonlinear Full-State Constrained CPSs Under Deception Attacks

IEEE Transactions on Cybernetics · 2025
被引 11 · 同刊同年前 10%
ABS 3

中文导读

针对遭受欺骗攻击且具有全状态约束的不确定非线性信息物理系统,提出了几种自适应事件触发控制策略,利用积分障碍李雅普诺夫函数直接约束受攻击状态,保证系统稳定且不违反约束。

Abstract

This article presents several adaptive event-triggered control (ETC) strategies for a class of uncertain nonlinear cyber-physical systems (CPSs) under constant or time-varying full-state constraints, as well as deception attacks via the senior network. Initially, the system under investigation is reformulated into a new system that encompasses both the original system state and the compromised state, enabling the use of compromised states for feedback control. Subsequently, two innovative asymptotic integral barrier Lyapunov functions (IBLFs) are developed by directly imposing constraints on the compromised state, thereby eliminating the necessity to convert state constraints into error constraints as required by traditional BLFs-based methods. Furthermore, controllers designed using relative/switched threshold event-triggered strategies ensure that all signals within the entire closed-loop system remain bounded, that the constant or time-varying full-state constraints are not breached, and that asymptotic stability is attained without Zeno behavior. Ultimately, simulation results validate the efficacy of the proposed strategies through a practical example.

自适应控制事件触发控制信息物理系统非线性系统网络安全