Smart Infotainment System for Vehicular Network

  • Authors

    • K Siddharthraju
    • R Dhivya Devi
    • T Shanmugaraja
    • S Mithunraj
    • S Sophia
    2018-08-15
    https://doi.org/10.14419/ijet.v7i3.27.17974
  • Vehicle to vehicle communication, road surface monitoring, emergency message alert, weather prediction, data analysis
  • On fast moving life, time management has become an important factor. Objective of this paper is to implement features of high range vehicles even in middle range vehicles through few performance metric improvements. The parametric and non-parametric analysis is applied to evaluate vibration modes. In a Vehicular Ad hoc Network (VANET), vehicles communicate with each other through Dedicated Short-Range Communication (DSRC) wireless devices. Equipped with hundreds of smart sensors, vehicles can detect their own parameters (such as braking, lane changes, and acceleration) and road conditions (such as icy roads and weather conditions).Vehicular ad hoc networks, the spontaneous creation of a wireless network for data exchanges, are used for clustering data. Quantitative data analysis is carried out for decision making.

     

  • References

    1. [1] Lochert C, Scheuermann B, Caliskan M & Mauve M, “The feasibility of information dissemination in vehicular ad-hoc networksâ€, IEEE Fourth Annual Conference on Wireless on Demand Network Systems and Services, (2007), pp.92-99.

      [2] Lochert C, Scheuermann B, Wewetzer C, Luebke A & Mauve, M, “Data aggregation and roadside unit placement for a vanet traffic information systemâ€, Proceedings of the fifth ACM international workshop on Vehicular Inter-Networking, (2008), pp.58-65.

      [3] Banerjee N, Corner MD, Towsley D & Levine BN, “Relays, base stations, and meshes: enhancing mobile networks with infrastructureâ€, Proceedings of the 14th ACM international conference on Mobile computing and networking, (2008), pp.81-91.

      [4] Sou SI & Tonguz OK, “Enhancing VANET connectivity through roadside units on highwaysâ€, IEEE transactions on vehicular technology, Vol.60, No.8, (2011), pp.3586-3602.

      [5] Dores C, Reis LP & Lopes NV, “Internet of things and cloud computingâ€, IEEE 9th Iberian Conference on Information Systems and Technologies (CISTI), (2014), pp.1-4.

      [6] Akyildiz IF, Su W, Sankarasubramaniam Y & Cayirci E, “Wireless sensor networks: a surveyâ€, Computer networks, Vol.38, No.4, (2002), pp.393-422.

      [7] Jung H, Min J & Kim, J, “An efficient lane detection algorithm for lane departure detectionâ€, IEEE Intelligent Vehicles Symposium (IV), (2013), pp.976-981.

      [8] Le MC, Phung SL & Bouzerdoum A, “Lane detection in unstructured environments for autonomous navigation systemsâ€, Asian Conference on Computer Vision, (2014), pp.414-429.

      [9] Akhpanov, S. Sabitov, R. Shaykhadenov (2018). Criminal pre-trial proceedings in the Republic of Kazakhstan: Trend of the institutional transformations. Opción, Año 33. 107-125.

      [10] D, Ibrayeva, Z Salkhanova, B Joldasbekova, Zh Bayanbayeva (2018). The specifics of the art autobiography genre. Opción, Año 33. 126-151.

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  • How to Cite

    Siddharthraju, K., Dhivya Devi, R., Shanmugaraja, T., Mithunraj, S., & Sophia, S. (2018). Smart Infotainment System for Vehicular Network. International Journal of Engineering & Technology, 7(3.27), 368-370. https://doi.org/10.14419/ijet.v7i3.27.17974