网络攻击下信息物理融合电力系统的弹性事件触发控制

Fei Sheng Yang; Jing Wang; Quan Pan; Pei Pei Kang

doi:10.16383/j.aas.c180388

网络攻击下信息物理融合电力系统的弹性事件触发控制

Translated title of the contribution: Resilient Event-triggered Control of Grid Cyber-physical Systems Against Cyber Attack

Fei Sheng Yang, Jing Wang, Quan Pan, Pei Pei Kang

School of Automation

Research output: Contribution to journal › Article › peer-review

39 Scopus citations

Abstract

In this paper, the electric vehicles (EVs) are integrated into the smart grid, a class of representative cyber-physical systems (CPS), and can participate into the load frequency control (LFC) to promptly suppress the variations of system disturbances. In the case of denial-of-service (DoS) attacks, a resilient event-triggering scheme is proposed to allow the system to tolerate data loss caused by the attacks. At the same time, the PI-type static output feedback controller input is updated only when necessary so that the communication burden is reduced. For the established closed-loop time-delay system model, the new Lyapunov functional is constructed to analyze the stability and derive the maximum DoS attack duration, meanwhile the controller gain and the resilient event-triggering matrix are jointly designed. Finally, the effectiveness of the proposed method is verified through multi-area power system simulation.

Translated title of the contribution	Resilient Event-triggered Control of Grid Cyber-physical Systems Against Cyber Attack
Original language	Chinese (Traditional)
Pages (from-to)	110-119
Number of pages	10
Journal	Zidonghua Xuebao/Acta Automatica Sinica
Volume	45
Issue number	1
DOIs	https://doi.org/10.16383/j.aas.c180388
State	Published - 1 Jan 2019

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title = "网络攻击下信息物理融合电力系统的弹性事件触发控制",

abstract = "In this paper, the electric vehicles (EVs) are integrated into the smart grid, a class of representative cyber-physical systems (CPS), and can participate into the load frequency control (LFC) to promptly suppress the variations of system disturbances. In the case of denial-of-service (DoS) attacks, a resilient event-triggering scheme is proposed to allow the system to tolerate data loss caused by the attacks. At the same time, the PI-type static output feedback controller input is updated only when necessary so that the communication burden is reduced. For the established closed-loop time-delay system model, the new Lyapunov functional is constructed to analyze the stability and derive the maximum DoS attack duration, meanwhile the controller gain and the resilient event-triggering matrix are jointly designed. Finally, the effectiveness of the proposed method is verified through multi-area power system simulation.",

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AU - Pan, Quan

AU - Kang, Pei Pei

PY - 2019/1/1

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N2 - In this paper, the electric vehicles (EVs) are integrated into the smart grid, a class of representative cyber-physical systems (CPS), and can participate into the load frequency control (LFC) to promptly suppress the variations of system disturbances. In the case of denial-of-service (DoS) attacks, a resilient event-triggering scheme is proposed to allow the system to tolerate data loss caused by the attacks. At the same time, the PI-type static output feedback controller input is updated only when necessary so that the communication burden is reduced. For the established closed-loop time-delay system model, the new Lyapunov functional is constructed to analyze the stability and derive the maximum DoS attack duration, meanwhile the controller gain and the resilient event-triggering matrix are jointly designed. Finally, the effectiveness of the proposed method is verified through multi-area power system simulation.

AB - In this paper, the electric vehicles (EVs) are integrated into the smart grid, a class of representative cyber-physical systems (CPS), and can participate into the load frequency control (LFC) to promptly suppress the variations of system disturbances. In the case of denial-of-service (DoS) attacks, a resilient event-triggering scheme is proposed to allow the system to tolerate data loss caused by the attacks. At the same time, the PI-type static output feedback controller input is updated only when necessary so that the communication burden is reduced. For the established closed-loop time-delay system model, the new Lyapunov functional is constructed to analyze the stability and derive the maximum DoS attack duration, meanwhile the controller gain and the resilient event-triggering matrix are jointly designed. Finally, the effectiveness of the proposed method is verified through multi-area power system simulation.

KW - (CPS)

KW - Cyber-physical systems

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KW - Load frequency control (LFC)

KW - Resilient event-triggered scheme

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网络攻击下信息物理融合电力系统的弹性事件触发控制

Abstract

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