Education, Science, Technology, Innovation and Life
Open Access
Sign In

V2G Blind Signature Privacy Protection Scheme Based on Blockchain

Download as PDF

DOI: 10.23977/jeis.2023.080105 | Downloads: 18 | Views: 487

Author(s)

Baoyi Wang 1, Yakun Gou 1, Shaomin Zhang 1

Affiliation(s)

1 School of Control and Computer Engineering, North China Electric Power University, Baoding, Hebei, 071003, China

Corresponding Author

Baoyi Wang

ABSTRACT

Due to the open nature of the V2G network, it is extremely easy to expose the user's personal information. At present, there are many solutions to solve the problem of V2G privacy protection. However, most of these solutions cannot provide a fully distributed environment, and there is a hidden danger of single point of failure. This work adopts a V2G privacy protection system based on blind signing and distributed Bloom filter to address the aforementioned issues. The blind signature is used to ensure the anonymity and the unlinkability of pseudonyms. The Bloom filter is established in the blockchain to verify pseudonyms in a decentralized manner, thus improving the verification speed.

KEYWORDS

Electric vehicle, blind signature, privacy protection, bloom filter, blockchain

CITE THIS PAPER

Baoyi Wang, Yakun Gou, Shaomin Zhang, V2G Blind Signature Privacy Protection Scheme Based on Blockchain. Journal of Electronics and Information Science (2023) Vol. 8: 36-41. DOI: http://dx.doi.org/10.23977/10.23977/jeis.2023.080105.

REFERENCES

[1] Liu Qilie, Chen Cheng. V2G anonymous Identity authentication scheme based on blockchain [J]. Computer Engineering, 2021, 47(11):7.
[2] Xia Z, Fang Z, Gu K, et al. Effective charging identity authentication scheme based on fog computing in V2G networks [J]. Journal of Information Security and Applications, 58, 2021, Article 102649.
[3] Chen J, Zhang Y, Su W. An anonymous authentication scheme for plug-in electric vehicles joining to charging/discharging station in vehicle-to-Grid (V2G) networks [J]. China Communications: English version, 2015(3): 11.
[4] Xu S, Chen X, He Y. EVchain: An Anonymous Blockchain-Based System for Charging–Connected Electric Vehicles [J]. Journal of Tsinghua University: Natural Science Edition (English Edition), 2021, 26(6):12.
[5] Wei K, Jian S, Pv C, et al. A practical group blind signature scheme for privacy protection in smart grid [J]. Journal of Parallel and Distributed Computing, 2020, 136:29-39.
[6] Weijian Zhang, Zhimin Guo, Nuannuan Li, Mingyan Li, Qing Fan, Min Luo, "A Blind Signature-Aided Privacy-Preserving Power Request Scheme for Smart Grid", Wireless Communications and Mobile Computing, vol. 2021, Article ID 9988170, 10 pages, 2021.
[7] Guan Z, Si G, Zhang X, et al. Privacy-preserving and Efficient Aggregation based on Blockchain for Power Grid Communications in Smart Communities [J]. IEEE Communications Magazine, 2018, 56(7):82-88.
[8] J. S. Shin, S. Lee, S. Choi, M. Jo and S. -H. Lee, "A New Distributed, Decentralized Privacy-Preserving ID Registration System," in IEEE Communications Magazine, vol. 59, no. 6, pp. 138-144, June 2021, doi: 10. 1109/ MCOM. 011.2000699.
[9] Popescu Constantin. A secure and efficient payment protocol based on ElGamal cryptographic algorithms [J]. Electronic Commerce Research, 2017.

Downloads: 7888
Visits: 271112

Sponsors, Associates, and Links


All published work is licensed under a Creative Commons Attribution 4.0 International License.

Copyright © 2016 - 2031 Clausius Scientific Press Inc. All Rights Reserved.