Switched-Based Resilient Control of Cyber-Physical Systems

Mariana Segovia-Ferreira; Jose Rubio-Hernan; Rosa Cavalli; Joaquin Garcia-Alfaro

doi:10.1109/ACCESS.2020.3039879

Switched-Based Resilient Control of Cyber-Physical Systems

Mariana Segovia-Ferreira
, Jose Rubio-Hernan
, Rosa Cavalli
, Joaquin Garcia-Alfaro

Institut Polytechnique de Paris

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

Abstract

We present a control-theoretic approach to achieve Cyber-Physical Systems (CPS) resilient designs. We assume situations in which the CPS must maintain the correct operation of a set of crucial functionalities despite ongoing adversarial misbehavior. The approach is based on a moving target defense paradigm, driven by a linear switching of state-space matrices, and applied at both the physical and network layers of a networked-control system. We show that the final system maintains stability. We also evaluate, via simulation, a step-by-step procedure that takes a transfer function, representing the dynamics of the physical process. As a result, we obtain a resilient CPS design structured around a topology of decentralized controllers. Results show that the obtained approach is both innovative and promising.

Original language	English
Article number	9266030
Pages (from-to)	212194-212208
Number of pages	15
Journal	IEEE Access
Volume	8
DOIs	https://doi.org/10.1109/ACCESS.2020.3039879
Publication status	Published - 1 Jan 2020

Keywords

Cyber-physical security
cyber resilience
infrastructure security
moving target defense
networked control systems
switched linear systems

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10.1109/ACCESS.2020.3039879

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title = "Switched-Based Resilient Control of Cyber-Physical Systems",

abstract = "We present a control-theoretic approach to achieve Cyber-Physical Systems (CPS) resilient designs. We assume situations in which the CPS must maintain the correct operation of a set of crucial functionalities despite ongoing adversarial misbehavior. The approach is based on a moving target defense paradigm, driven by a linear switching of state-space matrices, and applied at both the physical and network layers of a networked-control system. We show that the final system maintains stability. We also evaluate, via simulation, a step-by-step procedure that takes a transfer function, representing the dynamics of the physical process. As a result, we obtain a resilient CPS design structured around a topology of decentralized controllers. Results show that the obtained approach is both innovative and promising.",

keywords = "Cyber-physical security, cyber resilience, infrastructure security, moving target defense, networked control systems, switched linear systems",

author = "Mariana Segovia-Ferreira and Jose Rubio-Hernan and Rosa Cavalli and Joaquin Garcia-Alfaro",

note = "Publisher Copyright: {\textcopyright} 2013 IEEE.",

year = "2020",

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T1 - Switched-Based Resilient Control of Cyber-Physical Systems

AU - Segovia-Ferreira, Mariana

AU - Rubio-Hernan, Jose

AU - Cavalli, Rosa

AU - Garcia-Alfaro, Joaquin

PY - 2020/1/1

Y1 - 2020/1/1

N2 - We present a control-theoretic approach to achieve Cyber-Physical Systems (CPS) resilient designs. We assume situations in which the CPS must maintain the correct operation of a set of crucial functionalities despite ongoing adversarial misbehavior. The approach is based on a moving target defense paradigm, driven by a linear switching of state-space matrices, and applied at both the physical and network layers of a networked-control system. We show that the final system maintains stability. We also evaluate, via simulation, a step-by-step procedure that takes a transfer function, representing the dynamics of the physical process. As a result, we obtain a resilient CPS design structured around a topology of decentralized controllers. Results show that the obtained approach is both innovative and promising.

AB - We present a control-theoretic approach to achieve Cyber-Physical Systems (CPS) resilient designs. We assume situations in which the CPS must maintain the correct operation of a set of crucial functionalities despite ongoing adversarial misbehavior. The approach is based on a moving target defense paradigm, driven by a linear switching of state-space matrices, and applied at both the physical and network layers of a networked-control system. We show that the final system maintains stability. We also evaluate, via simulation, a step-by-step procedure that takes a transfer function, representing the dynamics of the physical process. As a result, we obtain a resilient CPS design structured around a topology of decentralized controllers. Results show that the obtained approach is both innovative and promising.

KW - Cyber-physical security

KW - cyber resilience

KW - infrastructure security

KW - moving target defense

KW - networked control systems

KW - switched linear systems

U2 - 10.1109/ACCESS.2020.3039879

DO - 10.1109/ACCESS.2020.3039879

M3 - Article

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SN - 2169-3536

VL - 8

SP - 212194

EP - 212208

JO - IEEE Access

JF - IEEE Access

M1 - 9266030

ER -

Switched-Based Resilient Control of Cyber-Physical Systems

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Keywords

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