Distributed Wardrop Load Balancing in Multi-MTU SCADA Systems. Suraci, V., Celsi, L., Giuseppi, A., Manfredi, G., & Di Giorgio, A. 2018. doi abstract bibtex 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.
@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},
}
Downloads: 0
{"_id":"BZo55cAFEKZbeormy","bibbaseid":"suraci-celsi-giuseppi-manfredi-digiorgio-distributedwardroploadbalancinginmultimtuscadasystems-2018","authorIDs":["cnSbkZ6mcMEB5wsJn"],"author_short":["Suraci, V.","Celsi, L.","Giuseppi, A.","Manfredi, G.","Di Giorgio, A."],"bibdata":{"bibtype":"conference","type":"conference","author":[{"propositions":[],"lastnames":["Suraci"],"firstnames":["V."],"suffixes":[]},{"propositions":[],"lastnames":["Celsi"],"firstnames":["L.R."],"suffixes":[]},{"propositions":[],"lastnames":["Giuseppi"],"firstnames":["A."],"suffixes":[]},{"propositions":[],"lastnames":["Manfredi"],"firstnames":["G."],"suffixes":[]},{"propositions":[],"lastnames":["Di","Giorgio"],"firstnames":["A."],"suffixes":[]}],"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","bibtex":"@CONFERENCE{Suraci2018466,\nauthor={Suraci, V. and Celsi, L.R. and Giuseppi, A. and Manfredi, G. and Di Giorgio, A.},\ntitle={Distributed Wardrop Load Balancing in Multi-MTU SCADA Systems},\njournal={MED 2018 - 26th Mediterranean Conference on Control and Automation},\nyear={2018},\npages={466-472},\ndoi={10.1109/MED.2018.8442485},\nart_number={8442485},\nabstract={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.},\nkeywords={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},\ndocument_type={Conference Paper},\n}\n\n","author_short":["Suraci, V.","Celsi, L.","Giuseppi, A.","Manfredi, G.","Di Giorgio, A."],"key":"Suraci2018466","id":"Suraci2018466","bibbaseid":"suraci-celsi-giuseppi-manfredi-digiorgio-distributedwardroploadbalancinginmultimtuscadasystems-2018","role":"author","urls":{},"keyword":["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"],"metadata":{"authorlinks":{"giuseppi, a":"https://967274320-atari-embeds.googleusercontent.com/embeds/16cb204cf3a9d4d223a0a3fd8b0eec5d/inner-frame-minified.html"}},"downloads":0},"bibtype":"conference","biburl":"https://raw.githubusercontent.com/AGiuseppi/AGiuseppi.github.io/master/pubs.bib","creationDate":"2021-02-05T21:34:02.542Z","downloads":0,"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"],"search_terms":["distributed","wardrop","load","balancing","multi","mtu","scada","systems","suraci","celsi","giuseppi","manfredi","di giorgio"],"title":"Distributed Wardrop Load Balancing in Multi-MTU SCADA Systems","year":2018,"dataSources":["LnFruMKQos7repGrF","pNu9oaGWEHH7o22SP","5EzEYy34nHSRYHdGQ","gfA6sQjmaq9WsWFdK","iGZjjyKe2m2P6Gg4W","ZZdxNsgmnZu3pHpvP"]}