Observer‐based attack‐resilient control for linear systems against FDI attacks on communication links from controller to actuators

Self Cite

121

Summary This paper considers the adaptive control problem for a class of nonlinear cyber‐physical systems with unknown nonlinearities and false data injection attacks, where the sensors are corrupted by attackers. To mitigate the effects caused by the considered attacks, a novel coordinate transformation is developed in the backstepping control design. In addition, to deal with the multiple unknown time‐varying state feedback gains caused by the sensor attacks, the new types of Nussbaum functions are introduced in the adaptive control. By using Lyapunov stability theory, the proposed control scheme can guarantee all the closed‐loop system signals globally bounded. Finally, the examples demonstrate the effectiveness of the proposed method.

Section: Introductionmentioning

confidence: 99%

“…the observer-based attack-resilient control architecture for linear systems was proposed in the work of Xie and Yang. 15 In addition, the state estimation problem against sensor attacks was considered in the works of Yang et al 16,17 However, these methods are mostly implemented for linear systems.…”

mentioning

confidence: 99%

Adaptive control for nonlinear cyber‐physical systems under false data injection attacks through sensor networks

Ren

Yang

2019

Self Cite

121

“…3,4 Therefore, how to curb cyber attacks has become an urgent issue. [5][6][7][8][9] As we all know, cyber attacks can be mainly classified into three categories: denial of service (DoS) attacks, 10,11 deception attacks, 12,13 and replay attacks. 14 For instance, a resilient dynamic event-triggered controller was designed to cope with the DoS attacks.…”

Section: Introductionmentioning

confidence: 99%

Static output feedback secure control for cyber‐physical systems based on multisensor scheme against replay attacks

Zhao

2020

This article studies the static output feedback (SOF) secure control issue for cyber-physical systems against replay attacks. The fundamental purpose focuses on how to stabilize the closed-loop system regardless of whether the replay attacks occur. First, a detection scheme is presented that can find the behavior of the adversary and recognize which sensor suffers from the attacks. Then, the SOF controller is designed and the adverse influence induced by the replay attacks can be eliminated through the detection information. Thereafter, a sufficient condition has been established which guarantees the closed-loop system is stable and satisfies a prescribed H ∞ performance. Finally, simulation results verify the effectiveness and superiority of the presented design and detection scheme.

“…By exploiting the game theory, the resilience of networked control systems and wireless networked control systems subject to DoS attacks was analyzed in the works of Yuan et al Moreover, in the work of Zhao et al, the design, implementation, and impact evaluation of undetectable attacks were discussed via a geometric approach. For linear system under the false data injection attacks, an observer‐based control strategy with an attack‐resilient performance was presented in the work of Xie and Yang . A dynamic output feedback controller was given for discrete‐time stochastic nonlinear systems subject to deception attacks in the work of Ding et al The robustness of the networked cooperative systems against the malicious injections was improved via competitive interaction of the cloud network with the original systems in the work of Gusrialdi et al A data‐driven sliding‐mode compensator was developed in the work of Huang et al such that the effect of the actuator attacks on CPSs was eliminated.…”

Section: Introductionmentioning

confidence: 99%

“…For linear system under the false data injection attacks, an observer-based control strategy with an attack-resilient performance was presented in the work of Xie and Yang. 26 A dynamic output feedback controller was given for discrete-time stochastic nonlinear systems subject to deception attacks in the work of Ding et al 27 The robustness of the networked cooperative systems against the malicious injections was improved via competitive interaction of the cloud network with the original systems in the work of Gusrialdi et al 28 A data-driven sliding-mode compensator was developed in the work of Huang et al 29 such that the effect of the actuator attacks on CPSs was eliminated. The adaptive control policy was developed to mitigate the sensor and actuator attacks in the works of Jin et al 30 and An and Yang,31 and in order to resist the frequency-constrained sensor and actuator attacks, the proposed control equipped with an adaptive attack compensator could guarantee the stability of CPSs in the work of Huang and Dong.…”

Section: Introductionmentioning

confidence: 99%

On modeling and secure control of cyber‐physical systems with attacks/faults changing system dynamics: An average dwell‐time approach

Huang

Dong

2019

Summary The problem of secure control in cyber‐physical systems is considered in this work. A new modeling framework is first introduced, ie, cyber‐physical systems with attacks/faults changing system dynamics is modeled as a switched system, where the switching among subsystems is triggered by a rule generated by attackers but unknown for defenders. Based on an average dwell‐time approach incorporated by the attack frequency and duration properties, a convergence condition of the Lyapunov function on active intervals of subsystems (ie, the attack and healthy modes), under the developed switched controller, is given. Next, the unknown rule, however, leads to the asynchronous switching problem between the candidate controllers and system modes. As a result, degradation of the system performance (eg, a large chatter occurred in the system state trajectories) in the asynchronous intervals is caused. To address the difficulty, a novel switching law based on a prescribed performance is proposed, and it is shown that the asynchronous intervals are shortened by reducing adjustable parameters in the switching law. An illustrative example verifies the effectiveness of the proposed method.