SECURE AND TRUSTABLE ROUTING PROTOCOL FOR ROUTING IN VEHICULAR DELAY TOLERANT NETWORK
DOI:
https://doi.org/10.59743/jbs.v34i1.7Keywords:
Artificial Neural Network, Clustering, Cluster Formation, Trustable Routing Protocol, Vehicular Ad-hoc NetworkAbstract
Vehicle adaptive network (VANET) is an emerging field of wireless networking and one of the most promising applications for vehicle communication. In particular, many moving vehicles that do not have a pre-existing communication infrastructure are currently under increasing research interest to improve road safety. To provide reliable services, many challenges in VANET must be improved. These challenges include routing and security algorithms. Due to high mobility and ever-changing infrastructure, VANET's stable and reliable routing is one of the major issues.To overcome those discrepancies, this paper proposes Cluster-Based – Trustable Routing Protocol (CB-TRP). Clustering of the vehicles is done using Artificial Neural Network, which considers the reliability rate value, speed, and distance difference among the nodes in the cluster formation. Also, routing is established using Trustable Routing Protocol (TRP). Finally, the privacy of the transmitted data is preserved using the K-anonymization method. Experimental results demonstrate the superiority and the effectiveness of the proposed system.
References
Rob Jansen, and Robert Beverly, "Toward anonymity in delay tolerant networks: threshold pivot scheme", In MILITARY COMMUNICATIONS CONFERENCE, 2010-MILCOM 2010, pp. 587-592, IEEE, 2010.
Chibueze P. Anyigor Ogah, Haitham Cruickshank, Zhili Sun, Ganesh Chandrasekaran, Yue Cao, Philip Michael Asuquo and Masoud Al Tawqi, "Privacy-enhanced group communication for vehicular delay-tolerant networks", In Next Generation Mobile Applications, Services and Technologies, 2015 9th International Conference on, pp. 193-198, IEEE, 2015.
Haojin Zhu, Xiaodong Lin, Rongxing Lu, Yanfei Fan, and Xuemin Shen, "Smart: A secure multilayer credit-based incentive scheme for delay-tolerant networks", IEEE Transactions on Vehicular Technology Vol. 58, No. 8, pp. 4628-4639, 2009.
Yinghui Guo, Sebastian Schildt, Tobias Pogel, and Lars Wolf, "Detecting malicious behavior in a Vehicular DTN for public transportation", In Global Information Infrastructure Symposium, 2013, pp. 1-8, IEEE, 2013.
Yinghui Guo, Sebastian Schildt, Tobias Po, Stephan Rottmann, and Lars Wolf, "Mitigating blackhole attacks in a hybrid VDTN", In World of Wireless, Mobile and Multimedia Networks (WoWMoM), 2014 IEEE 15th International Symposium on a pp. 1-6, IEEE, 2014.
Thiago Rodrigues de Oliveira, Sérgio de Oliveira, Daniel Fernandes Macedo, and José Marcos Nogueira, "Social networks for certification in vehicular disruption tolerant networks", In Wireless and Mobile Computing, Networking and Communications (WiMob), 2014 IEEE 10th International Conference on, pp. 479-486, IEEE, 2014.
Rongxing Lu, Xiaodong Lin, and Xuemin Shen, "Spring: A social-based privacy-preserving packet forwarding protocol for vehicular delay-tolerant networks", In INFOCOM, 2010 Proceedings IEEE, pp. 1-9, IEEE, 2010.
Jun Zhou, Xiaolei Dong, Zhenfu Cao, and Athanasios V. Vasilakos, "Secure and privacy-preserving protocol for cloud-based vehicular DTNs", IEEE Transactions on Information Forensics and Security Vol. 10, No. 6, pp. 1299- 1314, 2015.
Carson Dunbar and Gang Qu, "A DTN routing protocol for vehicle location information protection", In Military Communications Conference (MILCOM), 2014 IEEE, pp. 94-100, IEEE, 2014.
Qiwu Wu and Qingzi Liu, "A trusted routing protocol based on Bayesian in VANET", International Conference on Cyberspace Technology (CCT 2014), 2014 page 026 (4) 2014.
S. Anu Ranjana, CL Stefi Sterlin, W. V. Benita, and B. Baron Sam. "Secure and concealment in the cluster-based framework on vehicular networks." In Information Communication and Embedded Systems (ICICES), 2017 International Conference on, pp. 1-6, IEEE, 2017.
Milind R. Penurkar and Umesh A. Deshpande, "OPPRES: Opportunistic Routing algorithm for routing messages in emergencies using vehicular delay- tolerant network", In Advanced Networks and Telecommunications Systems (ANTS), 2016 IEEE International Conference on, pp. 1-6, IEEE, 2016.
Lei Zhang, Jun Song, and Jianping Pan, "A Privacy-Preserving and Secure Framework for Opportunistic Routing in DTNs", IEEE Transactions on Vehicular Technology Vol. 65, No. 9, pp. 7684-7697, 2016.
Honglong Chen, Wei Lou, Zhibo Wang, and Qian Wang, "A secure credit- based incentive mechanism for message forwarding in noncooperative DTNs", IEEE Transactions on Vehicular Technology Vol. 65, No. 8, pp. 6377- 6388, 2016.
Wu Qiwu, Liu Qingzi, Zhang Long, and Zhang Zhiming, "A trusted routing protocol based on GeoDTN+ Nav in VANET", China Communications Vol. 11, No. 14, pp. 166-174, 2014.
Ying Cai, Yanfang Fan, and Ding Wen, "An incentive-compatible routing protocol for two-hop delay-tolerant networks", IEEE Transactions on Vehicular Technology Vol. 65, No. 1, (2016): 266-277.
Suguo Du, Haojin Zhu, Xiaolong Li, Kaoru Ota, and Mianxiong Dong, "MixZone in motion: achieving dynamically cooperative location privacy protection in delay-tolerant networks", IEEE Transactions on Vehicular Technology Vol. 62, No. 9, pp. 4565-4575, 2013.
Sulma Rashid, Qaisar Ayub, and Abdul Hanan Abdullah, "Reactive weight- based buffer management policy for DTN routing protocols", Wireless Personal Communications Vol. 80, No. 3, pp. 993-1010, 2015.
Downloads
Published
Issue
Section
License
Copyright (c) 2021 Journal of Basic Sciences
This work is licensed under a Creative Commons Attribution 4.0 International License.
