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An Efficient Privacy-preserving Authentication Model based on blockchain for VANETs

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journal contribution
posted on 2024-04-17, 10:34 authored by X Feng, Q Shi, Q Xie, Lu LiuLu Liu
The existing privacy-preserving authentication models for Vehicular Ad-hoc Networks (VANETs) primarily preserve multiple pseudonyms for one vehicle, while overlooking the consideration of confidential identity requirements. These authentication models cause pseudonyms management complex and revocation inconvenient. Blockchain seems to be suitable for storing the pseudonym certificates as transactions in the ledger, which enables distributed authentication. However, blockchain produces high latency for the membership verification of users. To tackle these problems, we present an Efficient Privacy-preserving Authentication Model (EPAM), leveraging the asynchronous accumulator to extend the blockchain application. The asynchronous accumulator supports efficient membership verification and avoids the time consuming of checking the Certificate Revocation List (CRL). Additionally, by designing a mutual authentication protocol, we achieve privacy properties such as anonymity and unlinkability under the consideration of the semi-trust RSUs. The simulations show that the membership verification time is about 0.157ms in EPAM test over 10 certificates, thus alleviating the mutual authentication latency in VANETs. 7

Funding

National Natural Science Foundation of China under NO. 61902157 and 62002139, China Postdoctoral Science Foundation under NO. 2019M661753 and 2019M651738, and the Natural Science Foundation of Jiangsu Province, China under NO. BK20200886.

History

Author affiliation

College of Science & Engineering/Comp' & Math' Sciences

Version

  • AM (Accepted Manuscript)

Published in

Journal of Systems Architecture

Volume

117

Publisher

Elsevier

issn

1383-7621

eissn

1873-6165

Copyright date

2021

Available date

2024-04-17

Language

eng

Deposited by

Professor Lu Liu

Deposit date

2024-04-16

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