The safety region-based model predictive control for discrete-time systems under deception attacks

Yang Xu; Yuan Yuan; Hongjiu Yang; Dalin Zhou

doi:10.1080/00207721.2021.1879965

The safety region-based model predictive control for discrete-time systems under deception attacks

Yang Xu, Yuan Yuan, Hongjiu Yang, Dalin Zhou

School of Astronautics

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

11 Scopus citations

Abstract

In this paper, a resilient control problem is investigated for the discrete-time linear system subjected to both input constraint and additive disturbances. In addition, deception attacks are also taken into consideration which could compromise the communication channels. To deal with the mentioned complexities, the so-called safety region-based defense strategy (SRDS) is designed in the context of the robust model predictive control (RMPC) method. The original constraints of the system are used to establish the safety region. Sufficient conditions are established for the proposed SRDS such that the recursive feasibility and stability of the overall closed-system are guaranteed. Finally, two numerical examples are conducted to verify the effectiveness of the proposed methodology.

Original language	English
Pages (from-to)	2144-2160
Number of pages	17
Journal	International Journal of Systems Science
Volume	52
Issue number	10
DOIs	https://doi.org/10.1080/00207721.2021.1879965
State	Published - 2021

Keywords

cyber-physical systems (CPSs)
deception attacks
model predictive control (MPC)
Resilient control
safety region-based defense strategy (SRDS)

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10.1080/00207721.2021.1879965

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abstract = "In this paper, a resilient control problem is investigated for the discrete-time linear system subjected to both input constraint and additive disturbances. In addition, deception attacks are also taken into consideration which could compromise the communication channels. To deal with the mentioned complexities, the so-called safety region-based defense strategy (SRDS) is designed in the context of the robust model predictive control (RMPC) method. The original constraints of the system are used to establish the safety region. Sufficient conditions are established for the proposed SRDS such that the recursive feasibility and stability of the overall closed-system are guaranteed. Finally, two numerical examples are conducted to verify the effectiveness of the proposed methodology.",

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AU - Xu, Yang

AU - Yuan, Yuan

AU - Yang, Hongjiu

AU - Zhou, Dalin

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N2 - In this paper, a resilient control problem is investigated for the discrete-time linear system subjected to both input constraint and additive disturbances. In addition, deception attacks are also taken into consideration which could compromise the communication channels. To deal with the mentioned complexities, the so-called safety region-based defense strategy (SRDS) is designed in the context of the robust model predictive control (RMPC) method. The original constraints of the system are used to establish the safety region. Sufficient conditions are established for the proposed SRDS such that the recursive feasibility and stability of the overall closed-system are guaranteed. Finally, two numerical examples are conducted to verify the effectiveness of the proposed methodology.

AB - In this paper, a resilient control problem is investigated for the discrete-time linear system subjected to both input constraint and additive disturbances. In addition, deception attacks are also taken into consideration which could compromise the communication channels. To deal with the mentioned complexities, the so-called safety region-based defense strategy (SRDS) is designed in the context of the robust model predictive control (RMPC) method. The original constraints of the system are used to establish the safety region. Sufficient conditions are established for the proposed SRDS such that the recursive feasibility and stability of the overall closed-system are guaranteed. Finally, two numerical examples are conducted to verify the effectiveness of the proposed methodology.

KW - cyber-physical systems (CPSs)

KW - deception attacks

KW - model predictive control (MPC)

KW - Resilient control

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The safety region-based model predictive control for discrete-time systems under deception attacks

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