Journal of ISMAC
IRO Journals
Volume 1 — Issue 1 — June 2019

PERFORMANCE EVALUATION OF FLYING WIRELESS NETWORK WITH VANET ROUTING PROTOCOL

https://doi.org/10.36548/jismac.2019.1.005
Pages: 56-71
PDF
N. Bhalaji
Associate Professor, Department of Information Technology, SSN College of Engineering,
PDF

How to Cite

Bhalaji, N. 2019. “PERFORMANCE EVALUATION OF FLYING WIRELESS NETWORK WITH VANET ROUTING PROTOCOL”. Journal of ISMAC 1 (1): 56-71. https://doi.org/10.36548/jismac.2019.1.005.
ACM ACS APA ABNT Chicago Harvard IEEE MLA Turabian Vancouver AMA

Download Citation

Endnote/Zotero/Mendeley (RIS) BibTeX

Keywords

— VANET
— Flying wireless network
— Routing protocol
— Packet delivery ratio
— Network lifetime and Delay
Published: 30-06-2019

Abstract

The growing amount of vehicles on roadway is the key motivating the establishing of the road safety with comfort and undisturbed traffic flowing. Vehicular adhoc network is a trending wireless methodology that enable an unwired connection between the automobiles to have a highly secured driving with comfort. The vehicles connected wirelessly communicates with its nearby vehicle with the help of an on road circuitry and the mobile circuitry inside the automobile, sharing information either as caution preventing from unwanted fatalities or a guidance in travel. These automobile networks are crafted using the vehicles as their motile nodes and are instantaneously framed on the availability of the automobiles without the support of the ground stations may also be noted as flying wireless network due to their high motility. The conveyance between the vehicles is subjected to two strides. As a conveyance between automobile to automobile and the automobile to ground station. These wireless communication are to be pillared by the proper entrenchment of the message path to evade the unnecessary incidents. The prevailing methods of finding the path and to have formal delivery, suffers loss either by delaying incurred or the high bandwidth usage or reduced network life span with message losses. The proposed provides a well-engineered methodology to have enhanced reliable information sharing ensuring an infallible functioning with minimized delay, extended network lifespan, and an unfailing handing over to avoid the information losses provided with the optimized road safety and comfort. The proposed system is evaluated on the grounds of delay, network lifespan, and packet delivery ratio to confirm its well-ordered functioning when compared to the existing methods.

References

  1. Zeadally, Sherali, Ray Hunt, Yuh-Shyan Chen, Angela Irwin, and Aamir Hassan. "Vehicular ad hoc networks (VANETS): status, results, and challenges." Telecommunication Systems50, no. 4 (2012): 217-241.
  2. Hartenstein, Hannes, and L. P. Laberteaux. "A tutorial survey on vehicular ad hoc networks." IEEE Communications magazine 46, no. 6 (2008): 164-171.
  3. Raya, Maxim, and Jean-Pierre Hubaux. "Securing vehicular ad hoc networks." Journal of computer security 15, no. 1 (2007): 39-68.
  4. Liu, Kai, Joseph KY Ng, Victor Lee, Sang H. Son, and Ivan Stojmenovic. "Cooperative data scheduling in hybrid vehicular ad hoc networks: VANET as a software defined network." IEEE/ACM Transactions on Networking (TON) 24, no. 3 (2016): 1759-1773.
  5. Ahuja, Manu, and Shafiqul Abidin. "Performance Analysis of Vehicular Ad-hoc Network." International Journal of Computer Applications 151, no. 7 (2016).
  6. He, Zongjian, Jiannong Cao, and Xuefeng Liu. "SDVN: enabling rapid network innovation for heterogeneous vehicular communication." IEEE network 30, no. 4 (2016): 10-15.
  7. Eze, Elias C., Si-Jing Zhang, En-Jie Liu, and Joy C. Eze. "Advances in vehicular ad-hoc networks (VANETs): Challenges and road-map for future development." International Journal of Automation and Computing 13, no. 1 (2016): 1-18.
  8. Li, Wenjia, and Houbing Song. "ART: An attack-resistant trust management scheme for securing vehicular ad hoc networks." IEEE Transactions on Intelligent Transportation Systems 17, no. 4 (2016): 960-969.
  9. Rajesh, M., and J. M. Gnanasekar. "Path observation-based physical routing protocol for wireless ad hoc networks." International Journal of Wireless and Mobile Computing 11, no. 3 (2016): 244-257.
  10. Wagh, Mukund B., and N. Gomathi. "Route discovery for vehicular ad hoc networks using modified lion algorithm." Alexandria engineering journal 57, no. 4 (2018): 3075-3087.
  11. Jagatheeswari, M., and J. Srinivasan. "L-Lane Message Authentication Code Using Three Hop Routing Protocol in Ad hoc Network." (2019).
  12. Singh, Ranbir, and Kulwinder Singh Mann. "Improved TDMA Protocol for Channel Sensing in Vehicular Ad Hoc Network Using Time Lay." In Proceedings of 2nd International Conference on Communication, Computing and Networking, pp. 303-311. Springer, Singapore, 2019.
  13. Sun, Gang, Liangjun Song, Hongfang Yu, Victor Chang, Xiaojiang Du, and Mohsen Guizani. "V2V Routing in a VANET Based on the Autoregressive Integrated Moving Average Model." IEEE Transactions on Vehicular Technology 68, no. 1 (2019): 908-922.
  14. Liu, Chunfeng, Gang Zhang, Weisi Guo, and Ran He. "Kalman Prediction-Based Neighbor Discovery and Its Effect on Routing Protocol in Vehicular Ad Hoc Networks." IEEE Transactions on Intelligent Transportation Systems (2019).