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Wireless communication technologies have now greatly impact our daily lives. From indoor wireless LANs to outdoor cellular mobile networks, wireless technologies have benefited billions of users around the globe. The era of vehicular ad hoc networks (VANETs) is now evolving, gaining attention and momentum. This paper discusses the concept, research trends and application in VANET
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VANET; Automobile Application; VANET Routing; VANET Security

Hannes Hartenstein and Kenneth P. Laberteaux. A tutorial survey on vehicular adhoc networks, Communications Magazine, IEEE, 46(6):164–171, 2008.

W. Chen and S. Cai, “Ad hoc peer-to-peer network architecture for vehicle safety communications,” Communications Magazine, IEEE, vol. 43, no. 4, pp. 100–107, 2005.

R. H. Frenkiel, B. R. Badrinath, J. B. As, and R. D. Yates, “The infostations challenge: Balancing cost and ubiquity in delivering wireless data,” IEEE Personal Communications, vol. 7, pp. 66–71, 2000.

Sichitiu M, Kihl M. Inter-vehicle communication systems: a survey. IEEE Communications Surveys and Tutorials 2008; 10(2): 88–105.

Hartenstein, H. et al., “Position-Aware Ad Hoc Wireless Networks for Inter-Vehicle Communications: The FleetNet Project,” MobiHoc ’01: Proc. 2nd ACM Int’l. Symp. Mobile Ad Hoc Networking & Computing, New York: ACM Press, pp. 259–62, 2001.

M. Torrent-Moreno, S. Schnaufer, R. Eigner, C. Catrinescu, and J. Kunisch, "’NoW – Network on Wheels’: Project Objectives, Technology and Achievements,” 5th International Workshop on Intelligent Transportation (WIT), pages 211 - 216, Hamburg, Germany, March 2008.

D. Reichardt, Miglietta, M. Moretti, L. Morsink, P. Schulz, W. "CarTALK 2000: Safe and Comfortable Driving Based upon Inter Vehicle Communication," Intelligent Vehicle Symposium, 2002. IEEE, volume 2, pp 545-550, Mar 2003.

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Jason Lebrun, Chen nee Chuah, Dipak Ghosal, and Michael Zhang. Knowledge- based opportunistic forwarding in vehicular wireless ad hoc networks. In In IEEEVehicular Tech. Conf, pages 2289–2293, 2005.

Charles E. Perkins and Elizabeth M. Royer. Ad-hoc On-Demand Distance Vector Routing. In 2nd IEEE Workshop on Mobile Computing Systems and Applications,WMCSA ’99, February 25-26, 1999, New Orleans, Lousiana, USA, pages 90–100. IEEE, IEEE, February 1999.

Zhaomin Mo, Hao Zhu, Kia Makki, and N. Pissinou. MURU: A Multi-Hop RoutingProtocol for Urban Vehicular Ad Hoc Networks. pages 1–8, July 2006.

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J. J. Blum, A. Eskandarian, and L. J. Hoffman, “Challenges of Intervehicle Ad Hoc Networks,” IEEE Trans. Intell. Transport. Sys., vol. 5, no. 4, Dec. 2004, pp.347–51.

S., Chi, Z., & Yuguang, F. “An ID-based framework achieving privacy and non-repudiation”. In Proceedings of IEEE vehicular ad hoc networks, military communications conference (MILCOM 2007) (pp. 1–7), October 2007.

Stampoulis, A., & Chai, Z. “A survey of security in vehicular networks”, 2007 http://zoo.cs.yale.edu/~ams257/projects/ wireless-survey.pdf (accessed: May 29, 2011).

J. J. Blum, A. Eskandarian, and L. J. Hoffman, “Challenges of Intervehicle Ad Hoc Networks,” IEEE Trans. Intell. Transport. Sys., vol. 5, no. 4, Dec. 2004, pp. 347–51.

Mori H, Kitaoka H, Teramoto E. Traf.c simulation for predicting traffic situations at expo 2005. R&D Review of Toyota CRDL 2006; 41(4): 45–51. 2008. Available at: http://lcawww.ep..ch/piorkowski/

James Bernsen, D. Mnivannan, Department of Computer Science, University of Kentucky, Lexington, USA “Unicast routing protocols for vechicular ad hoc Network” Ph. D Thesis

Sascha Schnaufer, Holger Fuisler, Matthias Transier, Wolfgang Effelsberg, “Unicast Ad-hoc Routing in Vehicular City Scnarios“ in “Network on wheels “project under contract no. 01AK064F and Matthias Transier.

Kevin,Uichin Lee, Mario Gerla, “Survey of Routing Protocols in Vehicular Ad Hoc Networks in Car 2 Car communication consortium.

Yu Wang and Fan Li, “Vehicular Ad Hoc Networks” in Guide to Wireless Ad Hoc Networks, Computer communication and Networks, DOI 10.1007/978-1-84800-328-6_20

Maxim Raya and Jean-Pierre Hubaux “Securing vehicular ad hoc networks”, Journal of Computer security, IOS Press Amsterdam, The Netherlands, Volume 15, Issue 1(January 2007), pp. 39-68

Maxim Raya, Panos Papadimitratos and Jean-Pierre Hubaux “Securing Vehicular Communication”, IEEE Wireless Communications Magazine, Special Issue on Inter-Vehicular communication, Vol 13, num. 5, 2006, p. 8-15

Maxim Raya, EPFL Jean-Pierre Hubaux, EPFL “Security Aspects of Inter-Vehicle Communications” 5th Swiss Transport Research Conference Monte Verita/Ascona, March 9-11, 2005.

Cryptography and Network Security. Pearson Education International. 2006.

Krajzewicz D, Rossel C. Simulation of Urban Mobility (SUMO). German Aerospace Centre, 2007. Available at:http://sumo.sourceforge.net/index.shtml

MOVE (MObility model generator for VEhicular networks):Rapid Generation of Realistic Simulation for VANET, 2007.Available at: http://lens1.csie.ncku.edu.tw/MOVE/index.htm

Martinez FJ, Cano JC, Calafate CT, Manzoni P. Citymob: a mobility model pattern generator for VANETs. In IEEE Vehicular Networks and Applications Workshop (Vehi-Mobi, held with ICC), Beijing, China, May 2008.

STRAW - STreet RAndom Waypoint - vehiclar mobility model for network simulations (e.g., car networks), 2008. Available at: http://www.aqualab.cs.northwestern.edu/projects/STRAW/index.php

FreeSim, 2008. Available at: http://www.freewaysimulator.com/

Mori H, Kitaoka H, Teramoto E. Traffic simulation for predicting traffic situations at expo 2005. R&D Review of Toyota CRDL 2006; 41(4): 45–51.

Haerri J, Fiore M, Fethi F, Bonnet C. VanetMobiSim: generating realistic mobility patterns for VANETs. InstitutEurécom and Politecnico Di Torino, 2006. Available at: http://vanet.eurecom.fr/

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Martin J. GloMoSim. Global mobile information systems simulation library. UCLA Parallel Computing Laboratory, 2001. Available at: http://pcl.cs.ucla.edu/projects/glomosim/

Walsh K, Sirer EG. A staged network simulator (SNS). Computer Science Department, Cornell University, 2003. Available at: http://www.cs.cornell.edu/people/egs/sns/

JiST/SWANS: Java in Simulation Time/Scalable Wireless Ad hoc Network Simulator, 2004. Available at: http://jist.ece.cornell.edu/

The Georgia Tech Network Simulator (GTNetS), 2008. Available at: http://www.ece.gatech.edu/research/labs/MANIACS/GTNetS/

Piorkowski M, Raya M, Lugo AL, Papadimitratos P, Grossglauser M, Hubaux J-P. TraNS (Traffic and Network Simulation Environment). Ecole Polytechnique Fédérale de Lausanne, EPFL, Switzerland, 2007. Available at: http://trans.epfl.ch/

NCTUns 5.0, 2008. Available at: http://nsl10.csie.nctu.edu.tw/

Mangharam R, Weller D, Rajkumar R, Mudalige P, BaiF. GrooveNet: A Hybrid Simulator for Vehicle-to-VehicleNetworks. Carnegie Mellon University, 2006. Available at:http://www.seas.upenn.edu /rahulm/ Research/GrooveNet/

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Barr, R. (2004). An efficient, unifying approach to simulation using virtual machines. PhD thesis,Cornell University, US.

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Gorgorin, C., Gradinescu, V., Diaconescu, R., Cristea, V. & Iftode, L. (2006). An Integrated Vehicular and Network Simulator for Vehicular Ad-hoc Networks. In Proceedings of the Eurosis European Simulation and Modeling Conference 2006 (pp. 142-149). Toulouse, France.

Gradinescu, V., Gorgorin, C., Diaconescu, R., Cristea, V., & Iftode, L. (2007). Adaptive Traffic Lights Using Car-to-Car Communication. In Proceedings IEEE 65th Vehicular Technology Conference (pp. 21-25). Dublin, Ireland.

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Hedi Ayed, Djamel Khadraoui, Zineb Habbas, Pascal Bouvry, and Jean FrançoisMerche Transfer graph approach for multimodal transport problems. In MCO, pages538–547, 2008.

TclCL. SourceForge project: OTcl and TclCL. http://sourceforge.net/projects/otcl- tclcl/.

Raffaele Penazzi, Piergiorgio Capozio, Martin Duncan, Angelo Scuderi, Max Siti,and Edoardo Merli. Cooperative safety: a combination of multiple technologies. In DATE’08: Proceedings of the conference on Design, automation and test in Europe, pages 959– 961, New York, NY, USA, 2008.

Jason Lebrun, Chen nee Chuah, Dipak Ghosal, and Michael Zhang. Knowledge- based opportunistic forwarding in vehicular wireless ad hoc networks. In In IEEEVehicular Tech. Conf, pp : 2289–2293, 2005.

Jaehoon Jeong, Shuo Guo, Yu Gu, Tian He, and David Du. TBD: Trajectory-BasedData Forwarding for Light-Traffic Vehicular Networks. In Proc. of the 29th InternationalConference on Distributed Computing Systems (ICDCS’09), 2009.

Christian Wagner and Walter J. Franz. Stochastic evaluation of geographicalforwarding in vehicular ad hoc networks. In Peter Dadam and Manfred Reichert, editors,GI Jahrestagung (1), volume 50 of LNI, pages 95–99. GI, 2004.

T. Nadeem, P. Shankar, and L. Iftode, “A comparative study of data dissemination models for vanets,” in Mobile and Ubiquitous Systems: Networking & Services, 2006 Third Annual International Conference on, 2006, pp. 1–10.

W. Chen and S. Cai, “Ad hoc peer-to-peer network architecture for vehicle safety communications,” Communications Magazine, IEEE, vol. 43, no. 4, pp. 100–107, 2005.

M. Raya, P. Papadimitratos, and J.-P. Hubaux, “Securing vehicular communications.”

A. Stampoulis and Z. Chai, “A survey of security in vehicular networks.”

“SEcure VEhicular COMmunications,” http://www.sevecom.org/.

K. Matheus, R. Morich, and A. Lbke, “Economic background of car-to-car communications,” IMA, 2004.

Yue Liu, Jun Bi, Ju Yang; “Research on Vehicular Ad Hoc Networks”; Chinese Control and Decision Conference (CCDC), 2009. pp: 4430 – 4435.

[http://ieeexplore.ieee.org/xpl/standards. jsp.

Huibin Xu, Lijie Zhou, Consistence-Based Detection Location Verification for VANETS, (2012) International Review on Computer and Software (IRECOS), 7 (4), pp. 1900-1905.

http://standards.ieee.org/board/nes/ projects/ 1609-0.pdf.