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Vehicle-to-Vehicle Wireless Real Time Image Transmission for Traffic Awareness

D V S Ramanjaneyulu, Gerardine Immaculate Mary Published in Information Systems

International Journal of Applied Information Systems
Year of Publication 2012
© 2010 by IJAIS Journal
10.5120/ijais12-450104
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  1. D V S Ramanjaneyulu and Gerardine Immaculate Mary. Article: Vehicle-to-Vehicle Wireless Real Time Image Transmission for Traffic Awareness. International Journal of Applied Information Systems 1(2):16-19, January 2012. BibTeX

    @article{key:article,
    	author = "D V S Ramanjaneyulu and Gerardine Immaculate Mary",
    	title = "Article: Vehicle-to-Vehicle Wireless Real Time Image Transmission for Traffic Awareness",
    	journal = "International Journal of Applied Information Systems",
    	year = 2012,
    	volume = 1,
    	number = 2,
    	pages = "16-19",
    	month = "January",
    	note = "Published by Foundation of Computer Science, New York, USA"
    }
    

Abstract

In recent years the number of vehicles in roads have increased, which has causes high density in traffic and further problems like accident and road congestion. A solution regarding to this problem is vehicle-to-vehicle communication, where vehicles are able to communicate with their neighboring vehicles even in the absence of central base station to provide safe and more efficient road information. The goal of this paper is to communicate among vehicles for the awareness of real time traffic by sending images of the road situation at that particular instant of time. One vehicle sends information to the vehicle behind it, and so on. By using this image we find the updated traffic information. Here we are using WAVE (Wireless Access in Vehicular Environment), new wireless technology for vehicle communication, which is operated in the range of 5.850-5.925 GHz.

Reference

  1. IEEE Std 802.11, “IEEE Standard for Information Technology-Telecommunications and Information Exchange between Systems-Local and Metropolitan Area Networks-Specific Requirements — Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications,” 2007.
  2. IEEE Communications Magazine Roberto A. Uzcátegui, Universidad Nacional Experimental Politécnica “Antonio José de Sucre”Guillermo Acosta-Marum, Georgia Institute of Technology May 2009.
  3. Roberto A. Uzcátegui, Universidad Nacional Experimental Politécnica “Antonio José de Sucre” Guillermo Acosta-Marum, Georgia Institute of Technology “WAVE: A Tutorial” TOPICSIN Automotive Networking.
  4. Arijit Khan, Shatrugna Sadhu, and Muralikrishna Yeleswarapu Dept. of Computer Science, University of California, Santa Barbara “A comparative analysis of DSRC and 802.11 over Vehicular Ad hoc Networks” May 2009.
  5. IEEE Std 1609.1-2006, Trial-Use Standard for Wireless Access in Vehicular Environments (WAVE) Resource Manager
  6. IEEE Std 1609.2-2006, Trial-Use Standard for Wireless Access in Vehicular Environments Security Services for Applications and Management Messages
  7. IEEE Std 1609.3-2006, Trial-use Standard for Wireless Access in Vehicular Environments (WAVE) Networking Services
  8. IEEE Std 1609.4-2006, Trial-Use Standard for Wireless Access in Vehicular Environments (WAVE) Multi-Channel Operation
  9. NHTSA national highway traffic safety administration.
  10. IEEE P802.11p, Draft Amendment to STANDARD FOR Information technology—Telecommunications and information exchange between systems—LAN/MAN Specific Requirements—Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specifications: Wireless Access in Vehicular Environments (WAVE).

Keywords

IEEE 802.11p, WAVE, Matlab, Vehicle to Vehicle Communication, Dedicated Short Range Communications DSRC OFDM