RS-CBAODV: An Enhanced Reactive Routing Algorithm for VANET to Reduce Connection Breakage using Remote Storage Concepts

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Author(s)

N. Arul Kumar 1,* E. George Dharma Prakash Raj 2

1. Department of Computer Science, Bishop Heber College, Trichy - 620 017

2. Department of Computer Science and Engineering, Bharathidasan University, Trichy - 620 023

* Corresponding author.

DOI: https://doi.org/10.5815/ijitcs.2015.10.09

Received: 11 Feb. 2015 / Revised: 10 Apr. 2015 / Accepted: 9 Jun. 2015 / Published: 8 Sep. 2015

Index Terms

CBAODV, CS-CBAODV, Reactive Routing, Remote Route Backup, VANET and Connection Breakage

Abstract

Vehicular Ad hoc Network (VANET) is formed to share information on a temporary basis between the vehicular nodes in a wireless medium. The routing information is used to discover the vehicles and the route has to be maintained to transfer the data. It may lead to link failure or breakage in the communication, if there is high network mobility and constrained topology arrangement. In case of failure, it may cause loss of data and delay in the network. So, to avoid breakage, the routing information is stored in traditional protocols like CBAODV and CS-CBAODV. Instead of storing routing information in client side, the idea of storing data in the remote side is taken into consideration to backup permanently. This remote server manages the data in client server which is to be delivered to vehicular node. After analyzing related protocols and simulators, a new reactive based routing protocol is designed in this research work and it is named as RS-CBAODV is used to handle routing information between vehicular node, Client side node (RST i.e. Road Side Terminals) and also in Remote side storage node. To analysis the performance of the proposed protocol, MOVE and NS2 simulator is used to compare both CS-CBAODV and RS-CBAODV protocols.

Cite This Paper

N. Arul Kumar, E. George Dharma Prakash Raj, "RS-CBAODV: An Enhanced Reactive Routing Algorithm for VANET to Reduce Connection Breakage using Remote Storage Concepts", International Journal of Information Technology and Computer Science(IJITCS), vol.7, no.10, pp.74-83, 2015. DOI:10.5815/ijitcs.2015.10.09

Reference

[1]Saha, Soumen, Utpal Roy, and Devadutta Sinha. "Application of RREQ Packet in Modified AODV (m-AODV) in the Contest of VANET." In Computational Intelligence in Data Mining-Volume 1, pp. 489-502. Springer India, 2015.

[2]Arulkumar, N., and E. George Dharma Prakash Raj. "CBAODV: An Enhanced Reactive Routing Algorithm to Reduce Connection Breakage in VANET." In Artificial Intelligence and Evolutionary Algorithms in Engineering Systems, pp. 533-539. Springer India, 2015.

[3]Gabteni, Hanene, Benoit Hilt, Frederic Drouhin, Jonathan Ledy, Michel Basset, and Pascal Lorenz, "A Novel Predictive Link State Indicator for Ad-Hoc Networks", Global Communications Conference (GLOBECOM), 2014, IEEE, pp: 149 – 154.  

[4]Iqbal, Faisal, Mohammad Inayatullah Khan Babar, Mohammad Haseeb Zafar, and Megat Farez Zuhairi. "I-AODV: Infrastructure based Ad Hoc on-demand distance vector routing protocol for vehicular Ad Hoc Networks." In Smart Instrumentation, Measurement and Applications (ICSIMA), 2013 IEEE International Conference on, pp. 1-5. IEEE, 2013. 

[5]Raj, G. S. "An efficient reactive location based ad hoc routing protocol for VANETs." In Advanced Computing (ICoAC), 2013 Fifth International Conference on, pp. 468-471. IEEE, 2013. 

[6]Kim, Min-Uk, and Kyoungro Yoon. "Fast Path Recovery Scheme for V2V Communications Using AODV." In Information Science and Applications (ICISA), 2013 International Conference on, pp. 1-2. IEEE, 2013.

[7]Ghosh, Arindam, Vishnu Vardhan, Glenford Mapp, Orhan Gemikonakli, and Jonathan Loo. "Providing ubiquitous communication using road-side units in VANET systems: Unveiling the challenges." In ITS Telecommunications (ITST), 2013 13th International Conference on, pp. 74-79. IEEE, 2013.

[8]Gerla, Mario, Chuchu Wu, Giovanni Pau, and Xiaoqing Zhu. "Content distribution in VANETs." Vehicular Communications 1, no. 1 (ELSEVIER, 2014): 3-12.

[9]Barcelos, Vladimir P., Thiago C. Amarante, Carlos Daniel Drury, and Luiz HA Correia. "Vehicle monitoring system using IEEE 802.11 p device and Android application." In Computers and Communication (ISCC), 2014 IEEE Symposium on, pp. 1-7. IEEE, 2014.

[10]Farooq, Mohd Umar, Mohammad Pasha, and Khaleel Ur Rahman Khan. "A data dissemination model for Cloud enabled VANETs using In-Vehicular resources." In Computing for Sustainable Global Development (INDIACom), 2014 International Conference on, pp. 458-462. IEEE, 2014.

[11]Vondra, Michal, Soufiene Djahel, and John Murphy. "VANETs signal quality-based route selection in smart cities." In Wireless Days (WD), 2014 IFIP, pp. 1-8. IEEE, 2014.

[12]Abdessamed, Derder, and Moussaoui Samira. "Target Tracking in VANETs Using V2I and V2V Communication." In Advanced Networking Distributed Systems and Applications (INDS), 2014 International Conference on, pp. 19-24. IEEE, 2014.

[13]Zheng, Jingqing, Yi Wu, Zhexin Xu, and Xiao Lin. "A reliable routing protocol based on QoS for VANET." In Advanced Infocomm Technology (ICAIT), 2014 IEEE 7th International Conference on, pp. 21-28. IEEE, 2014.

[14]Chaqfeh, Moumena, Abderrahmane Lakas, and Imad Jawhar. "A survey on data dissemination in vehicular ad hoc networks." Vehicular Communications 1, no. 4 (2014): 214-225.

[15]Mathews, Sam. "An effective strategy for pseudonym generation & changing scheme with privacy preservation for vanet." In Electronics and Communication Systems (ICECS), 2014 International Conference on, pp. 1-6. IEEE, 2014.

[16]Yang, Yang, Qian Liu, Zhipeng Gao, Xuesong Qiu, Lanlan Rui, and Xin Li. "A data dissemination mechanism for motorway environment in VANETs." EURASIP Journal on Wireless Communications and Networking 2015, no. 1 (2015): 1-11.

[17]Dressler, Falko, Philipp Handle, and Christoph Sommer. "Towards a vehicular cloud-using parked vehicles as a temporary network and storage infrastructure." In Proceedings of the 2014 ACM international workshop on Wireless and mobile technologies for smart cities, pp. 11-18. ACM, 2014.