IRI - Switching LPV approach for analysis and control of TCP-based cyber-physical systems under DoS attack

Publication

Switching LPV approach for analysis and control of TCP-based cyber-physical systems under DoS attack

Journal Article (2024)

Journal

Neurocomputing

Pages

128310

Volume

608

Doc link

https://doi.org/10.1016/j.neucom.2024.128310

File

Download the digital copy of the doc pdf document

Authors

Abstract

Cyber-physical systems (CPSs) integrate controllers, sensors, actuators, and communication networks. Tight integration with communication networks makes CPSs vulnerable to cyberattacks. In this paper, the impact of denial of service (DoS) attacks on the stability of cyber physical systems is investigated, with a focus on the transmission control protocol (TCP). A sufficient stability condition is extracted in linear matrix inequality (LMI) form. The TCP-CPS under DoS attack is modeled as a switching linear parameter-varying (LPV) time-delay system using the Markov jump model. Subsequently, a parameter-dependent stabilizing controller is designed for CPSs under DoS attacks, taking into account network parameters. Finally, the efficiency and feasibility of the findings are demonstrated through a well-known case study in the networked control systems literature.

Scientific reference

S. Barchinezhad and V. Puig. Switching LPV approach for analysis and control of TCP-based cyber-physical systems under DoS attack. Neurocomputing, 608: 128310, 2024.