车联网中的无证书批量认证方案

doi:10.3969/j.issn.1671-7775.2024.06.010

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摘要针对车联网中网络带宽和计算能力有限导致消息认证效率低的问题，提出一种车联网中的无证书批量认证方案.权威机构为每个注册车辆生成一个评估证明，并基于全部注册车辆计算一个全局承诺，车辆基于评估证明参与消息认证过程.在认证过程中，可信机构能够利用全局承诺通过双线性配对来检验车辆、评估证明的有效性，以实现认证消息的快速批量认证.在隐私安全方面，所提出方案在区块链架构的基础上引入零知识证明，为车辆提供匿名性、不可链接性等隐私保护属性，并通过区块链状态数据库实现对车辆身份的准确追溯与快速撤销.针对所提出方案进行了安全性分析、计算效率分析以及仿真试验.结果表明，所提出方案能够满足匿名性、不可链接性等多种安全需求，其平均认证时间为0.357 ms，至少优于现有同类方案12.46%.

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	冯霞
	崔凯平
	李泽
	龚玲

关键词 ：车联网, 消息认证, 无证书认证, 区块链, 批量认证, 隐私保护, 匿名追溯

Abstract：To solve the problem of low message authentication efficiency in the internet of vehicles (IoVs) caused by limited network bandwidth and computing power, the certificateless batch authentication scheme applied to the IoVs was proposed. The authority generated evaluation proof for each registered vehicle and calculated global commitment based on all registered vehicles. The vehicles participated in the message authentication process based on the evaluation proof. In the authentication process, the global commitment could be utilized by the trusted authorities to check the validity of vehicle evaluation proofs through bilinear pairing for realizing rapid batch authentication. For the privacy and security, the zeroknowledge proof was introduced by the proposed scheme based on the blockchain architecture, which provided privacy protection properties of anonymity and unlinkability for vehicles. The accurate traceability and fast revocation were realized through the blockchain state database. The security analysis, computational efficiency analysis and simulation experiments were conducted. The results show that the proposed scheme can satisfy various security requirements of anonymity and unlinkability, and the average authentication time is 0.357 ms, which is at least 12.46% better than those of existing schemes.

Key words： IoVs message authentication certificateless authentication blockchain batch authentication privacy protection anonymous traceability

基金资助:国家自然科学基金资助项目（61902157,62002139）

作者简介: 冯霞(1983—)，女，江苏镇江人，副教授(xiazio@ujs.edu.cn)，主要从事车联网安全、物联网隐私计算研究. 崔凯平(1997—)，男，山东潍坊人，硕士研究生(1621212372@qq.com)，主要从事车联网安全研究.

引用本文:

冯霞，崔凯平，李泽，龚玲. 车联网中的无证书批量认证方案[J]. 江苏大学学报（自然科学版）, 2024, 45(6): 694-700. FENG Xia, CUI Kaiping, LI Ze, GONG Ling. Certificateless batch authentication scheme in internet of vehicles[J]. Journal of Jiangsu University(Natural Science Eidtion) , 2024, 45(6): 694-700.

链接本文:

http://zzs.ujs.edu.cn/xbzkb/CN/10.3969/j.issn.1671-7775.2024.06.010 或 http://zzs.ujs.edu.cn/xbzkb/CN/Y2024/V45/I6/694

［1］	HE D B, ZEADALLY S, XU B W, et al. An efficient identitybased conditional privacypreserving authentication scheme for vehicular ad hoc networks[J]. IEEE Transactions on Information Forensics and Security, 2015,10(12):2681-2691.
［2］	赵宗渠,王瀚博,李英,等.车联网中格上基于身份的隐私保护协议[J].重庆邮电大学学报(自然科学版), 2024,36(1):49-58.
	ZHAO Z Q, WANG H B, LI Y, et al. Identitybased privacy protection protocol from lattices in VANET[J]. Journal of Chongqing University of Posts and Telecommunications (Natural Science Edition), 2024,36(1):49-58.(in Chinese)
［3］	YAO Y Y, CHANG X L, MIIC＇ J, et al. BLA: blockchainassisted lightweight anonymous authentication for distributed vehicular fog services[J]. IEEE Internet of Things Journal, 2019,6(2):3775-3784.
［4］	LU Z J, WANG Q, QU G, et al. A blockchainbased privacypreserving authentication scheme for VANETs[J]. IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 2019,27(12):2792-2801.
［5］	WAZID M, BAGGA P, DAS A K, et al. AKMIoV: authenticated key management protocol in fog computingbased internet of vehicles deployment[J]. IEEE Internet of Things Journal, 2019,6(5):8804-8817.
［6］	KATE A, ZAVERUCHA G M, GOLDBERG I. Constantsize commitments to polynomials and their applications[C]∥Proceedings of the 16th International Conference on the Theory and Application of Cryptology and Information Security. Heidelberg：Springer Verlag, DOI:10.1007/9783642173738_11.
［7］	CUI J, WANG Y L, ZHANG J, et al. Full session key agreement scheme based on chaotic map in vehicular ad hoc networks[J]. IEEE Transactions on Vehicular Technology, 2020,69(8):8914-8924.
［8］	LIU Y W, HE Z J, ZHAO S J, et al. An efficient anonymous authentication protocol using batch operations for VANETs[J]. Multimedia Tools and Applications, 2016,75(24):17689-17709.
［9］	SIKARWAR H, NAHAR A, DAS D. LABVS: lightweight authentication and batch verification scheme for universal internet of vehicles (UIoV) [C]∥Proceedings of the 2020 IEEE 91st Vehicular Technology Conference. Piscataway：IEEE, DOI:10.1109/VTC2020Spring48590.2020.9129180.
［10］	FENG X, SHI Q C, XIE Q Q, et al. P2BA: a privacypreserving protocol with batch authentication against semitrusted RSUs in vehicular ad hoc networks[J]. IEEE Transactions on Information Forensics and Security, 2021,16:3888-3899.