Computing

, Volume 96, Issue 2, pp 119–131

An energy-efficient geographic routing protocol design in vehicular ad-hoc network

Authors

  • Jian-Ming Chang
    • Department of Computer Science and Information EngineeringNational Dong Hwa University
    • Chung Shan Institute of Science and Technology
  • Chin-Feng Lai
    • Institute of Computer Science and Information EngineeringNational Ilan University
  • Han-Chieh Chao
    • Institute of Computer Science and Information EngineeringNational Ilan University
    • Hubei Key Laboratory of Intelligent Wireless Communications, College of Computer ScienceSouth-Central University for Nationalities
Article

DOI: 10.1007/s00607-012-0235-7

Cite this article as:
Chang, J., Lai, C., Chao, H. et al. Computing (2014) 96: 119. doi:10.1007/s00607-012-0235-7

Abstract

The combination of vehicles and wireless communication has resulted in a promising future for vehicular ad hoc networks (VANETs). The VANET is a kind of network that can be built randomly, quickly and temporarily without any infrastructure. The routing of data in a VANET is a challenging task due to the high dynamics, unstable connection environments and transfer direction limit (real road planning) involved. However, it has been discussed that radio obstacles, as found in urban areas, have a significant negative impact on the performance of location based routing. Therefore, the design of a suitable routing protocol for VANETs is an important issue, especially in regard to inter-vehicle communication applications. This paper proposes a energy-efficient geographic routing algorithm that uses the direction, density and distance between nodes in the crossroad routing strategy, to improve the link stability. We compare the novel scheme, ad hoc on-demand distance vector, and dynamic source routing (DSR) for packet loss rate and average end-to-end delay in VANETs to reduce the power consumptions. The simulation results are obtained which demonstrate the power effectiveness of our proposed routing strategy.

Keywords

VANETsGeographic routing algorithmInter-vehicle communicationEnergy-efficient

Mathematics Subject Classification (2010)

68M1068M12

Copyright information

© Springer-Verlag Wien 2012