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Journals & Magazines >IEEE Transactions on Vehicula... >Volume: 69 Issue: 6

An Efficient Decentralized Key Management Mechanism for VANET With Blockchain

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Zhuo Ma; Junwei Zhang; Yongzhen Guo; Yang Liu; Ximeng Liu; Wei He
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Abstract:

The vehicular ad hoc network (VANET) has been considered as one of the most prominent technologies for improving the efficiency and safety of modern transportation system...Show More

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Abstract:

The vehicular ad hoc network (VANET) has been considered as one of the most prominent technologies for improving the efficiency and safety of modern transportation systems. However, VANET will present a unique range of challenges and opportunities for security. In particular, key management, as the footstone to build a practical security framework in VANET, becomes a research hotspot. In this paper, we investigate key management based on blockchain for VANET. We first propose an efficient decentralized key management mechanism for VANET with blockchain (DB-KMM) to automatically realize the registration, update and revocation of user’s public key. At the same time, we present a lightweight mutual authentication and key agreement protocol based on the bivariate polynomial. Then, we analyze the security of DB-KMM in the universally composable framework and show that the mechanism can prevent the typical attacks including internal attacks, DoS attacks, public key tampering attacks and collusion attacks. Finally, we analyze the performance of the proposed scheme through experiments and simulation. Experiment results show that DB-KMM has better performance than the existing schemes in terms of communication, storage, computation overhead and latency.
Published in: IEEE Transactions on Vehicular Technology ( Volume: 69, Issue: 6, June 2020)
Page(s): 5836 - 5849
Date of Publication: 10 February 2020

ISSN Information:

DOI: 10.1109/TVT.2020.2972923

Funding Agency:

References is not available for this document.
Contents

I. Introduction

Recent advances in wireless communication technologies and automobiles have fuelled the growth of Intelligent Transport System (ITS) which addresses various vehicular traffic issues like traffic congestion, information dissemination, accident etc. Vehicular ad hoc networks (VANET) is an integral component of ITS in which moving vehicles are connected and communicate wirelessly. IEEE 802.11p is proposed as the first wireless access standard in vehicular environment [1], [2], which promotes the development of VANET. In addition, the maturity of 5G technology injects huge potential into the VANET. With the higher reliability and lower latency of 5G [3], the layout of the automatic driving, intelligent transportation and intelligent city is certain to come true in the near future. Although the development of VANET is motivated by the formulation of the wireless communication technology (IEEE 802.11p or 5G), some security issues of communication are still unsolved [4], and one of the most serious issues is the key management.

Select All
1.
B. Ramachandran et al., "Wireless LAN medium access control and physical layer specification", Inf. Technol. J., vol. 4, no. 2, pp. 148-161, 2002.
Google Scholar
2.
A. Bazzi, C. Campolo, B. M. Masini, A. Molinaro, A. Zanella and A. O. Berthet, "Enhancing cooperative driving in IEEE 802.11 vehicular networks through full-duplex radios", IEEE Trans. Wireless Commun., vol. 17, no. 4, pp. 2402-2416, Apr. 2018.
View Article
Google Scholar
3.
M. Bagaa, T. Taleb and A. Ksentini, "Efficient tracking area management framework for 5G networks", IEEE Trans. Wireless Commun., vol. 15, no. 6, pp. 4117-4131, Jun. 2016.
View Article
Google Scholar
4.
F. Qu, Z. Wu, F.-Y. Wang and W. Cho, "A security and privacy review of VANETs", IEEE Trans. Intell. Transp. Syst., vol. 16, no. 6, pp. 2985-2996, Dec. 2015.
View Article
Google Scholar
5.
I. T. S. Committee et al., IEEE Trial-Use Standard for Wireless Access in Vehicular Environments-Security Services for Applications and Management Messages, 2006.
Google Scholar
6.
A. H. Salem, A. A.-Hamid and M. A. El-Nasr, "The case for dynamic key distribution for PKI-based VANETs", arXiv:1605.04696, 2016.
Google Scholar
7.
J. Kang, Y. Elmehdwi and D. Lin, "Slim: Secure and lightweight identity management in vanets with minimum infrastructure reliance", Proc. Int. Conf. Secur. Privacy Commun. Syst., pp. 823-837, 2017.
CrossRef Google Scholar
8.
W. Xiong and B. Tang, "A cloud based three layer key management scheme for VANET", Proc. Int. Conf. Geo-Spatial Knowl. Intell., pp. 574-587, 2017.
CrossRef Google Scholar
9.
A. Albarqi, E. Alzaid, F. Al Ghamdi, S. Asiri and J. Kar, "Public key infrastructure: A survey", J. Inf. Secur., vol. 6, no. 1, 2015.
CrossRef Google Scholar
10.
P.-Y. Shen, V. Liu, M. Tang and W. Caelli, "An efficient public key management system: An application in vehicular Ad Hoc Networks", Proc. Pacific Asia Conf. Inf. Syst., pp. 175, 2011.
Google Scholar
11.
S. Nakamoto et al., "Bitcoin: A peer-to-peer electronic cash system", Consulted, vol. 1, 2008.
Google Scholar
12.
Z. Lu, W. Liu, Q. Wang, G. Qu and Z. Liu, "A privacy-preserving trust model based on blockchain for VANETS", IEEE Access, vol. 6, pp. 45655-45664, 2018.
View Article
Google Scholar
13.
N. Lasla, M. Younis, W. Znaidi and D. B. Arbia, "Efficient distributed admission and revocation using blockchain for cooperative ITS", Proc. 9th IFIP Int. Conf. New Technologies Mobility Secur., pp. 1-5, 2018.
View Article
Google Scholar
14.
A. Lei, H. Cruickshank, Y. Cao, P. Asuquo, C. P. A. Ogah and Z. Sun, "Blockchain-based dynamic key management for heterogeneous intelligent transportation systems", IEEE Internet Things J., vol. 4, no. 6, pp. 1832-1843, Dec. 2017.
View Article
Google Scholar
15.
S. Tikhomirov, E. Voskresenskaya, I. Ivanitskiy, R. Takhaviev and Y. Alexandrov, "Smartcheck: Static analysis of Ethereum smart contracts", Proc. IEEE/ACM 1st Int. Workshop Emerg. Trends Softw. Eng. Blockchain, pp. 9-16, 2018.
CrossRef Google Scholar
16.
Y. Hao, Y. Cheng, C. Zhou and W. Song, "A distributed key management framework with cooperative message authentication in VANETs", IEEE J. Sel. Areas Commun., vol. 29, no. 3, pp. 616-629, Mar. 2011.
View Article
Google Scholar
17.
N. Kumar, R. Iqbal, S. Misra and J. J. Rodrigues, "An intelligent approach for building a secure decentralized public key infrastructure in VANET", J. Comput. Syst. Sci., vol. 81, no. 6, pp. 1042-1058, 2015.
CrossRef Google Scholar
18.
T. H. Chuan, J. Zhang, M. Maode, P. H. J. Chong and H. Labiod, "Secure public key regime (SPKR) in vehicular networks", Proc. Int. Conf. Cyber Secur. Smart Cities Ind. Control Syst. Commun., pp. 1-7, 2015.
View Article
Google Scholar
19.
H. Tan, M. Ma, H. Labiod, A. Boudguiga, J. Zhang and P. H. J. Chong, "A secure and authenticated key management protocol (SA-KMP) for vehicular networks", IEEE Trans. Veh. Technol., vol. 65, no. 12, pp. 9570-9584, Dec. 2016.
View Article
Google Scholar
20.
C. Li, S. Ji, X. Zhang, H. Wang, D. Li and H. Liu, "An effective and secure key management protocol for message delivery in autonomous vehicular clouds", Sensors, vol. 18, no. 9, 2018.
CrossRef Google Scholar
21.
T. Jiang, H. Fang and H. Wang, "Blockchain-based Internet of Vehicles: Distributed network architecture and performance analysis", IEEE Internet Things J., vol. 6, no. 3, pp. 4640-4649, Jun. 2019.
View Article
Google Scholar
22.
P. K. Sharma, S. Y. Moon and J. H. Park, "Block-VN: A distributed blockchain based vehicular network architecture in smart city", J. Inf. Process. Syst., vol. 13, no. 1, pp. 184-195, 2017.
Google Scholar
23.
Z. Yang, K. Yang, L. Lei, K. Zheng and V. C. Leung, "Blockchain-based decentralized trust management in vehicular networks", IEEE Internet Things J., vol. 6, no. 2, pp. 1495-1505, Apr. 2019.
View Article
Google Scholar
24.
J. Kang et al., "Blockchain for secure and efficient data sharing in vehicular edge computing and networks", IEEE Internet Things J., vol. 6, no. 3, pp. 4660-4670, Jun. 2019.
View Article
Google Scholar
25.
C. Blundo, A. De Santis, A. Herzberg, S. Kutten, U. Vaccaro and M. Yung, "Perfectly-secure key distribution for dynamic conferences", Proc. Annu. Int. Cryptology Conf., pp. 471-486, 1992.
CrossRef Google Scholar
26.
D. Dolev and A. Yao, "On the security of public key protocols", IEEE Trans. Inf. Theory, vol. IT-29, no. 2, pp. 198-208, 1983.
View Article
Google Scholar
27.
Z. Ma, J. Ma, S. Moon and X. Li, "An efficient authentication protocol for WLAN mesh networks in trusted environment", IEICE Trans. Inf. Syst., vol. 93, no. 3, pp. 430-437, 2010.
CrossRef Google Scholar
28.
"Total cost of ownership for public key infrastructure", 2005, [online] Available: http://www.imaginar.org/sites/ecommerce/index_archivos/guias/G_tco.pdf.
Google Scholar
29.
A. T. T. Whitepaper, "The costs of managed PKI", 2006, [online] Available: https://azslide.com/the-costs-ofmanaged-pki_59892e9b1723dda4299be236.html.
Google Scholar
30.
R. Canetti, "Universally composable security: A new paradigm for cryptographic protocols", Proc. 42nd IEEE Symp. Found. Comput. Sci., 2001.
View Article
Google Scholar
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