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具有安全水印的双速率控制框架抵御欺骗攻击

Dual-Rate Control Framework With Safe Watermarking Against Deception Attacks

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2022
被引 27
ABS 3

中文导读

提出一种双速率控制框架,结合模型预测控制和状态反馈预测控制器,在注入水印信号检测欺骗攻击的同时,通过重构模块减轻水印对系统性能的影响。

Abstract

This article presents a novel secure-control framework against sensor deception attacks. The vulnerability of cyber-physical systems with respect to sensor deceptive attacks makes that all sensor measurements are not reliable until the system security is assured by an attack detection module. Most of the active attack detection strategies require some time to assess the system security, while injecting a watermark signal to ease the detection. However, the injection of watermark signals deteriorates the performance and stability of the plant. The proposed control framework consists of a dual-rate control (DRC) that is able to stabilize the plant using: 1) a model predictive controller that operates at a slower sampling time; 2) a state-feedback predictor-based controller that operates in the nominal sampling time disregarding the use of the untrustworthy measurements until the attack detector is able to certify the security; and 3) a reconfiguration block (RB) for palliating the effect of the watermarking. Simulation results indicate the efficacy of the proposed DRC framework to defend the system from cyber-attacks and the ability of the RB to improve the closed-loop performance during the watermark injection.

网络安全控制理论信息物理系统攻击检测