@CONFERENCE{Suraci2018466,
author={Suraci, V. and Celsi, L.R. and Giuseppi, A. and Manfredi, G. and Di Giorgio, A.},
title={Distributed Wardrop Load Balancing in Multi-MTU SCADA Systems},
journal={MED 2018 - 26th Mediterranean Conference on Control and Automation},
year={2018},
pages={466-472},
doi={10.1109/MED.2018.8442485},
art_number={8442485},
abstract={This paper presents a distributed strategy for load balancing in a multi-MTU SCADA system, whose automatic control layer is such that its MTU Plane is modeled as a networked dynamical system. The proposed control law, under which the considered system is proven to converge to a Wardrop equilibrium, is also used for the purpose of equilibrium recovery in load distribution among MTUs after the occurrence of a possible MTU failure event induced by a cyber-physical attack (e.g., a Denial of Service attack). Numerical simulations with respect to realistic scenarios are reported to show the effectiveness of the proposed approach. © 2018 IEEE.},
keywords={Automation;  Denial-of-service attack;  Dynamical systems;  Networked control systems, Control laws;  Cyber physicals;  Distributed strategies;  Failure events;  Load distributions;  Networked dynamical systems;  Realistic scenario;  Wardrop equilibrium, SCADA systems},
document_type={Conference Paper},
}

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