A Novel Framework to Control and Optimize the Traffic Congestion Issue in VANET

  • Authors

    • Tanuja Kayarga
    • H M. Navyashree
    2018-08-24
    https://doi.org/10.14419/ijet.v7i3.31.18234
  • .

  • In the recent times due to the increase of vehicular nodes in a vehicular communication network, there is a need of developing efficient systems in order to optimize the vehicular traffic congestion issues in urban areas. The current research trends shows that most of the conventional studies focused on developing fuzzy inference systems based vehicular traffic congestion model which has gained lots of attention on detecting and minimizing the congestion levels.We have proposed a new approach towards detection and controlling of traffic congestion in VANET. The proposed system utilizes the communication channels very efficiently and irrespective of any kind of overload. This proposed system aims to introduce a novel framework for identifying traffic jam on Vehicular Ad-hoc Networks. In order to detect and minimize the level of congestion our approach will use a fuzzy logic based approach to notify the drivers about available routes during the traffic congestion. An experimental prototype will be set up to enable the graphical simulation.

  • References

    1. [1] Hartenstein H & Laberteaux KP, “A Tutorial Survey on Vehicular Ad Hoc Networksâ€, IEEE Communications Magazine, (2008).

      [2] Yousefi S, Mousavi MS & Fathy M, “Vehicular ad hoc networks (VANETs): challenges and perspectiveâ€, Proceedings, 6th International Conference on ITS Telecommunications, (2006), pp. 761-766.

      [3] Veeraraghavan M, “A survey of research literature on Vehicular Networkingâ€, University of Virginia, (2011).

      [4] Shrivastava D & Agrawal A, “Traffic congestion detection in vehicular adhoc networks using GPSâ€, IEEE International Conference on Computational Intelligence and Computing Research (ICCIC), (2014).

      [5] Mohandas BK, Liscano R & Yang OW, “Vehicle traffic congestion management in vehicular ad-hoc networksâ€, IEEE 34th Conference on Local Computer Networks, (2009), pp.655-660.

      [6] Soni S & Shrivastava G, “Efficient Mechanism for Congestion Control and Bandwidth Utilization of VANETâ€, International Journal of Engineering Research & Technology (IJERT), Vol.3, No.5, (2014).

      [7] Sampigethaya K, Li M, Huang L & Poovendran R, “AMOEBA: Robust location privacy scheme for VANETâ€, IEEE Journal on Selected Areas in communications, Vol.25, No.8,(2007), pp.1569-1589.

      [8] Djahel S & Ghamri-Doudane Y, “A robust congestion control scheme for fast and reliable dissemination of safety messages in vanetsâ€, Wireless Communications and Networking Conference (WCNC), (2012), pp.2264-2269.

      [9] Samara G, Al-Salihy WA & Sures R, “Security analysis of vehicular ad hoc nerworks (VANET)â€, Second International Conference on Network Applications Protocols and Services (NETAPPS), (2010), pp.55-60.

      [10] Sasikala G & Dhanalakshmi KS, “Key Management Techniques for VANETsâ€, International Conference on Electronics, Communication and Information Systems, (2012).

      [11] Sari A, Onursal O & Akkaya M, “Review of the Security Issues in Vehicular Ad Hoc Networks (VANET)â€, International Journal of Communications, Network and System Sciences, (2015).

      [12] Hao Y, Cheng Y, Zhou C & Song W, “A distributed key management framework with cooperative message authentication in VANETsâ€, IEEE Journal on Selected Areas in Communications, (2011).

      [13] Milojevic M & Rakocevic V, “Distributed road traffic congestion quantification using cooperative VANETsâ€, 13th Annual Mediterranean Ad Hoc Networking Workshop (MED-HOC-NET), (2014), pp.203-210.

      [14] Cohen R, Zhang J, Finnson J, Tran T & Minhas UF, “A trust-based framework for vehicular travel with non-binary reports and its validation via an extensive simulation testbedâ€, Journal of Trust Management, (2014).

      [15] Indra A & Murali R, “Routing Protocols for Vehicular Adhoc Networks (VANETs): A Reviewâ€, (2014).

      [16] Dok H, Fu H, Echevarria R & Weerasinghe H, “Privacy issues of vehicular ad-hoc networksâ€, International Journal of Future Generation Communication and Networking, (2010), pp.17-32.

      [17] Qureshi KN & Abdullah AH, “Localization-Based System Challenges in Vehicular Ad Hoc Networks: Surveyâ€, Smart CR, (2014), pp.515-528.

      [18] Diwakar M, Kumar A, Kumar D & Thapliyal N, “VANET (Vehicular Ad-Hoc Networks): Avoidance of Risk Factor in Secure Communicationâ€, International Journal of Engineering and Innovative Technology (IJEIT).

      [19] Singla R & Sharma N, “Dynamic path selection with hybrid protocol and secure data transmission with PGP security in VANETâ€, International Journal of Advanced Research in Computer Engineering & Technology (IJARCET), (2014), pp.1-5.

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  • How to Cite

    Kayarga, T., & M. Navyashree, H. (2018). A Novel Framework to Control and Optimize the Traffic Congestion Issue in VANET. International Journal of Engineering & Technology, 7(2.31), 245-248. https://doi.org/10.14419/ijet.v7i3.31.18234