Reference : New Trends in Observer-based Control: An Introduction to Design Approaches and Engine...
Parts of books : Contribution to collective works
Engineering, computing & technology : Computer science
http://hdl.handle.net/10993/39398
New Trends in Observer-based Control: An Introduction to Design Approaches and Engineering Applications, Chapter 13: Observer-based Event-triggered Attack-Tolerant Control Design for Cyber-physical Systems
English
Bezzaoucha, Souad mailto [University of Luxembourg > Interdisciplinary Centre for Security, Reliability and Trust (SNT) > >]
Voos, Holger mailto [University of Luxembourg > Faculty of Science, Technology and Communication (FSTC) > Engineering Research Unit > ; University of Luxembourg > Interdisciplinary Centre for Security, Reliability and Trust (SNT)]
2019
New Trends in Observer-based Control: An Introduction to Design Approaches and Engineering Applications, Chapter 13: Observer-based Event-triggered Attack-Tolerant Control Design for Cyber-physical Systems
Elsevier
Yes
978-0-12-817038-0
[en] In the following chapter, we first introduce an appropriate model associating paradigms from control theory and computer science (system subject to both physical attacks and sensors/actuators attacks via the connected network, i.e., false-data injection attacks on actuators/sensors). Then, inspired by a combination between the classical fault-tolerant control
(FTC) approach and the event-triggered control, an observer-based attack-tolerant control solution is proposed. The aim of our work is, first, to establish theoretical foundations for the development of model-based monitoring and attack-tolerant control for reliable deployment of a large number of advanced Cyber-Physical Systems.
Researchers ; Students
http://hdl.handle.net/10993/39398
Chapter 13 introduces an appropriate model associating paradigms from control theory and computer science to deal with the system subject to both physical attacks and sensor/actuator attacks via the connected network. Inspired by a combination of the classical fault-tolerant control approach and the event-triggered control, an observer-based, attack tolerant control solution is proposed. The control design is applied to a laboratory benchmark including a three-tank system subject to physical attacks.

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