Switched-Based Resilient Control of Cyber-Physical Systems

Switched-Based Resilient Control of Cyber-Physical Systems

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 p...

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Bibliographic Details
Main Authors: Mariana Segovia-Ferreira, Jose Rubio-Hernan, Rosa Cavalli, Joaquin Garcia-Alfaro
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
Cyber-physical security
infrastructure security
cyber resilience
moving target defense
switched linear systems
networked control systems
Online Access:https://ieeexplore.ieee.org/document/9266030/
Description
Summary: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.
ISSN:2169-3536

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