TY - GEN
T1 - Vulnerability of EV Charging Stations to Cyber Attacks Manipulating Prices
AU - Akbarian, Amirhossein
AU - Bahrami, Mahdi
AU - Vakilian, Mehdi
AU - Lehtonen, Matti
N1 - Publisher Copyright:
© 2023 IEEE.
PY - 2023
Y1 - 2023
N2 - Electric vehicles (EVs) have experienced an unprecedented increase in their penetration; in well developed countries; due to the advancement of battery technology and the need to make transportation more environmentally friendly. As a result of this trend, EVs have become an integral part of those countries power grid ecosystem, where they may be used as both a source, and a consumer of energy. However, cybersecurity risks associated with large fleets of EVs within the power grids can significantly impact the normal operation of distribution systems. This paper considers the cyber-attack consequences, from attackers' perspective. The cyber attackers under study target the charging price (CP) by increasing the CP in off-peak hours and accordingly subsiding it in on-peak hours. A two-stage optimization framework is proposed to identify the most important ultra-fast charging stations (XFCs) under the cyber-attack, meanwhile, the EV users' response to the compromised CP is considered. Then, the proposed model is implemented on a modified IEEE 123-bus distribution test system, and the effectiveness of the model is proved through some case studies. In particular, they demonstrated that the amount of load shedding is increased by 8.198 MW when the EV user response is taken into account.
AB - Electric vehicles (EVs) have experienced an unprecedented increase in their penetration; in well developed countries; due to the advancement of battery technology and the need to make transportation more environmentally friendly. As a result of this trend, EVs have become an integral part of those countries power grid ecosystem, where they may be used as both a source, and a consumer of energy. However, cybersecurity risks associated with large fleets of EVs within the power grids can significantly impact the normal operation of distribution systems. This paper considers the cyber-attack consequences, from attackers' perspective. The cyber attackers under study target the charging price (CP) by increasing the CP in off-peak hours and accordingly subsiding it in on-peak hours. A two-stage optimization framework is proposed to identify the most important ultra-fast charging stations (XFCs) under the cyber-attack, meanwhile, the EV users' response to the compromised CP is considered. Then, the proposed model is implemented on a modified IEEE 123-bus distribution test system, and the effectiveness of the model is proved through some case studies. In particular, they demonstrated that the amount of load shedding is increased by 8.198 MW when the EV user response is taken into account.
KW - Charging price
KW - customer behavior
KW - EV
KW - FDIA
KW - two-stage optimization
KW - XFC
UR - http://www.scopus.com/inward/record.url?scp=85166982225&partnerID=8YFLogxK
U2 - 10.1109/FES57669.2023.10183070
DO - 10.1109/FES57669.2023.10183070
M3 - Conference article in proceedings
AN - SCOPUS:85166982225
T3 - 2023 International Conference on Future Energy Solutions, FES 2023
BT - 2023 International Conference on Future Energy Solutions, FES 2023
PB - IEEE
T2 - International Conference on Future Energy Solutions
Y2 - 12 June 2023 through 14 June 2023
ER -
