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A Cross-Domain Authentication Scheme for Electric Vehicle Intelligent Charging for Multiple Power Service Providers

Published: 18 April 2024 Publication History

Abstract

In order to solve the problems such as too centralized authentication and single point failure in traditional cross-domain authentication schemes,this paper proposed a distributed assistance cross-domain authentication scheme applies to authentication between electric vehicles and charging stations,besides the scheme improves authentication efficiency based on the use of blockchain technology.This scheme uses bilinear pairing algorithm to complete information signature and identity authentication.Service providers build blockchain networks and access to authentication data is completed through smart contracts.In addition, the performance analysis of the authentication scheme is carried out in this paper, and the results show that the scheme can not only complete identity authentication, but also has  high security with low computing cost.The test on the execution efficiency of smart contract shows that the scheme can meet the requirements of real-time cross-domain authentication of EV charging.

References

[1]
Han WL, Xiao Y. Privacy preservation for V2G networks in smart grid: A survey[J],Computer Communications, 2016,91–92:17-28.
[2]
Wang ZhenPo, Zhang Jin, Liu Peng, Overview of planning of eletric vehicle charging stastions[J], China Journal of Highway and Transport, 2022,35(12):230-252.
[3]
Garofalaki Z, Kosmanos D,Moschoyiannis S,et al. Electric vehicle charging: a survey on the security issues and challenges of the open charge point protocol (OCPP) [J], IEEE Communications Surveys & Tutorials, 2022, 24(3):1504-1533.
[4]
Millan GL, Perez MG, Perez GM, PKI-based trust management in inter-domain scenarios[J].computers&security,2010,29(2):278-290.
[5]
Jia XD, Hu N, Su S, IRBA: An Identity-Based Cross-Domain Authentication Scheme for the Internet of Things[J],electronics,2020,9(4).
[6]
Zhang X, Zhong H, Cui J, LBVP: A lightweight batch verification protocol for fog-based vehicular networks using self-certified public key cryptography[J], in IEEE Transactions on Vehicular Technology, 2022,71(5): 5519-5533.
[7]
Lv YY, Liu WJ, Wang Z.Heterogeneous Cross-Domain Identity Authentication Scheme Based on Proxy Resignature in Cloud Environment[J].2020,2020.
[8]
Yang A, Weng J, Yang K, Delegating authentication to edge: a decentralized authentication architecture for vehicular networks[J], IEEE Transactions on Intelligent Transportation Systems,2020, 23(2):1284-1298.
[9]
Cheng GJ, Deng SG, Wen YY, Survey on blockchain based internet of things authentication mechanisms.[J] Journal of Software. 2023,34(03):1470-1490.
[10]
Zhou Zhicheng,Li Lixin,Li zhuohui. Efficient cross-domain authentication scheme based on blockchain technology. [J] Journal of Computer Applications .2018,38(2):316-320.
[11]
Kumar P, Kumari S, Sharma V, Secure CLS and CL-AS schemes designed for VANETs. [J]Supercomput 2019,75(6): 3076–3098.
[12]
Gupta D. S, Islam S. H, Obaidat M. S, A provably secure and lightweight identity-based two-party authenticated key agreement protocol for IIoT Environments[J], IEEE Systems Journal,2021,15(2):1732-1741.
[13]
Liu Y, He Z, Zhao S, An efficient anonymous authentication protocol using batch operations for VANETs[J]. Multimed Tools Appl 2016,75: 17689–17709.
[14]
Ma XT, Ma WP, Liu XX.A Cross Domain Authentication Scheme Based on Blockchain Technology.[J]Acta Electronica Sinica,2018,46(11):2571-2579.
[15]
Yang Y, Wei L, Wu J, A Blockchain-based multidomain authentication scheme for conditional privacy preserving in vehicular ad-hoc network[J],in IEEE Internet of Things Journal.2022,9(11): 8078-8090.
[16]
Arun SR, Azees M, Fadi AT, ABRIS: Anonymous blockchain based revocable and integrity preservation scheme for vehicle to grid network[J],Energy Reports,2022,8: 9331-9343.
[17]
Wei X, Wang XY, Yu Z, Cross domain authentication for IoT based on consortium blockchain[J]. Journal of Software, 2021,32(8):2613−2628.
[18]
Hua L, Jiang H, Xiao J Cross-Domain Self-Authentication Based Consortium Blockchain for Autonomous Valet Parking System, [J] IEEE Access, 2022. 10: 87950-87961.
[19]
Shahidinejad A, Abbasinezhad-Mood D. Ultra-lightweight and secure blockchain-assisted charging scheduling scheme for vehicular Edge Networks by utilization of nanopi NEO [J], IEEE Transactions on Vehicular Technology,2022, 71(8):8116-8123.
[20]
Zagrajek K, A survey data approach for determining the probability values of vehicle-to-grid service provision[J]. Energies 2021, 14(21):7270.

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  1. A Cross-Domain Authentication Scheme for Electric Vehicle Intelligent Charging for Multiple Power Service Providers

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    ICCNS '23: Proceedings of the 2023 13th International Conference on Communication and Network Security
    December 2023
    363 pages
    ISBN:9798400707964
    DOI:10.1145/3638782
    Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than the author(s) must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected].

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    Published: 18 April 2024

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    Author Tags

    1. Blockchain
    2. Crossdomain authentication
    3. Smart charging

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