This paper explores the principles of construction, monitoring, management, and safety organization in the network of charging stations for electric vehicles. The use of elements of modern client-server technologies and elements of cyber-physical systems in such networks is offered. The basic structure of the cyber-physical control system of the charging station network has been developed. Network server and client tools have been researched and developed. Structural and functional server solutions and client parts are submitted. An analysis of the potential cyberattacks vulnerability of the network. Suggestеtion to use effective methods of protection against cyberattacks.
- Facilitating e-mobility: EURELECTRIC views on charging infrastructure. EURELECTRIC Position Paper, March, 2012.
- Falvo M. C., Martirano L., Sbordone D., and Bocci E. Technologies for Smart Grids: a brief review. Proc. IEEE EEEIC 2013, 12th Int. Conf. on Environment and Electrical Engineering.
- Falvo M. C., Carmen Maria, et al. EV charging stations and modes: International standards. Power Electronics, Electrical Drives, Automation, and Motion (SPEEDAM), 2014 International Symposium on. IEEE, 2014.
- Checkoway, Stephen, et al. Comprehensive experimental analyses of automotive attack surfaces. USENIX Security Symposium. 2011.
- Kocher Paul, et al. Security as a new dimension in embedded system design. Proceedings of the 41st annual Design Automation Conference. ACM, 2004.
- Samrat Acharya, Yury Dvorkin, Ramesh Karri. Public Plug-in Electric Vehicles + Grid Data: Is a New Cyberattack Vector Viable" 27 Feb, 2020.
- Veneri O., Ferraro L., Capasso C., Iannuzzi D. Charging Infrastructures for EV: Overview of Technologies and Issues, 2012 IEEE ESARS, Electrical Systems for Aircraft, Railway and Ship Propulsion Conference, Oct. 2012.
- Yuan Y., Li Z., and Ren K. Modeling load redistribution attacks in power systems. IEEE Transactions on Smart Grid, vol. 2, no. 2, 2011. pp. 382–390.
- Amal Ahmed Anda and Daniel Amyot. Arithmetic Semantics of Feature and Goal Models for Adaptive Cyber-Physical Systems. Sep, 2019.
- Cyber-physical systems: data collection technologies / A. Botchkaryov, V. Golembo, Y. Paramud, V. Yatsyuk, ed. A. Melnyk, Lviv, “Magnolia 2006”, 2019. 176 p. (in Ukrainian)
- Features of classification and application of telecommunication interfaces in cyberphysical systems. Miyushkovich E.G. Paramud Y.S. Transactions on Computer systems and networks, Lviv Polytechnic National University Press, 2015, No. 830. PP. 106–115 (in Ukrainian).
- Grebeniak A., Miyushkovych E., Paramud Y. Digital interfaces in cyber-physical systems// Advances in Cyber-Physical Systems. — Volume II, Number 1, 2017. pp. 6–10.
- Ihnatovych A., Paramud Y. Metody shyfruvannya informatsii iz vykorystannyam maskuyuchyh symvoliv. Transactions on Computer sceins and information tehnologi, Lviv Polytechnic National University Press, 2015, No. 826. pp. 21–27 (in Ukrainian)
- Melnyk A. O. Multilevel basic cyber-physical system platform : Cyber-physical systems: achievements and challenges. First scientific seminar materials (June 25-26, 2015, Lviv). 2015. pp. 5–15.
- Raju Gottumukkala, Rizwan Merchant, Adam Tauzin, Kaleb Leon, Andrew Roche, Paul Darby. Cyber- physical System Security of Vehicle Charging Stations. April, 2019.
- Salo A. Simulation of automatic water purification machine for vending cyber physical systems. Technology audit and production reserves. No. 2/2 (40), 2018. pp. 16–21.