Journal of Communications, Vol 7, No 6 (2012), 451-457, Jun 2012
doi:10.4304/jcm.7.6.451-457

Vehicular Testbeds - Model Validation before Large Scale Deployment

Mario Gerla, Jui-Ting Weng, Eugenio Giordano, Giovanni Pau

Abstract


Vehicular communications are becoming a reality due to the investments by stakeholders like car manufacturers and Public Transport Authorities. The building blocks of the ”Vehicle Grid” (radios, Access Points, spectrum, standards, etc.) are coming into place enabling a broad gamut of applications that range from navigation safety, intelligent transport, entertainment and urban sensing. Vehicular protocols and applications, however, must be carefully tested before deployment in the urban grid and introduction to the users. This validation must be carried out progressively in simulation, emulation and small scale testbed environments. In this paper we discuss the important role of the vehicular testbed in validating models and protocols before deployment in large scale scenarios. We illustrate the concept using two case studies that were carried out in the UCLA open vehicular testbed.



Keywords


vehicular testbed; VANET, AODV, OLSR, virtualization; emulation; radio propagation

References


 

[1] H. Hartenstein, B. Bochow, A. Ebner, M. Lott, M. Radimirsch and D. Vollmer, ”Position-aware Ad Hoc Wireless Networks for Inter-vehicle Communications”, Mobihoc 2001.

[2] DSRC, ”http://grouper.ieee.org/groups/scc32/dsrc/”.

[3] eSafty, ”http://europa.eu.int/informationsociety/programmes/esafety”.

[4] CarTALK2000, http://www.cartalk2000.net.

[5] CVeT Testbed “http://www.vehicularlab.org/testbed.php.

[6] F. Bai, H. Krishnan “Reliability Analysis of DSRC Wireless Communication for Vehicle Safety Applications”, IEEE Intelligent Transportation Systems Conference (ITSC), 2006.

[7] Antonio Capone, Stefano Napoli, Alberto Pollastro “MobiMESH: An Experimental Platform for Wireless MESH Networks with Mobility Support” Proc. of ACM QShine 2006

[8] CarTel “http://cartel.csil.mit.edu/”.

[9] DOME “http://prisms.cs.umass.edu/dome/”.

[10] ORBIT: Open-Access Research Testbed for Next-Generation Wireless Networks, “http://www.orbit-lab.org/”.

[11] Devashish Rastogi, Sachin Ganu, Yanyong Zhang, Wade Trappe, and Charles Graff, “A comparative study of AODV and OLSR on the ORBIT testbed”, Milcom 2007.

[12] CMU wireless emulator “http://www.cs.cmu.edu/~emulator/”.

[13] APE testbed “http://apetestbed.sourceforge.net/”.

[14] PlanetLab “http://www.planet-lab.org/”.

[15] CRAWDAD “http://crawdad.cs.dartmouth.edu/”.

[16] E. Giordano, R. Frank, G. Pau, and M. Gerla, “Corner: a realistic urban propagation model for VANET”, in The Seventh International Conference on Wireless On-demand Network Systems and Services (WONS), 2010. http://dx.doi.org/10.1109/WONS.2010.5437133
http://dx.doi.org/10.1109/WONS.2010.5437133

[17] CORNER: a Realistic Urban Propagation Model for QualNet “http://www.vehicularlab.org/archives/vergilius/cornerQualnetManual.pdf”.

[18] MadWifi project “http://madwifi-project.org/”.

[19] Google Earth “http://earth.google.com/”.

[20] Xen “http://www.xen.org/”.

[21] Gentoo “http://www.gentoo.org/”.


Full Text: PDF


Journal of Communications (JCM, ISSN 1796-2021)

Copyright @ 2006-2013 by ACADEMY PUBLISHER – All rights reserved.