Comparative Performance AODV-ANT and AOMDV-ANT in BlackHole

  • Authors

    • Ajeng Mayang
    • Savitri Galih
    2018-12-13
    https://doi.org/10.14419/ijet.v7i4.34.25780
  • MANET, AODV, AOMDV, Ant-Net, Black Hole Attack.
  • In this paper, we simulate the black hole attack to compare performance AODV-ANT and AOMDV-ANT to support the advance of the node communications to deliver a good management. In our simulation, the result shows AODV-ANT has decrease packets receive in Blackhole attack comparing without black hole until 0.03%, and while in AOMDV-ANT decrease until 0.47%. But, in throughput, AOMDV-ANT is better than AODV-ANT. The result is AOMDV-ANT has decrease throughput in Blackhole attack comparing without black hole until 0.93%, and while in AODV-ANT decrease until 1.85%. Then, in packet delivery ratio (PDR), AODV-ANT has decrease PDR in Blackhole attack comparing without black hole until 10.357%, and while in AOMDV-ANT decrease until 13.57%. In simulation performed, the impact of the black hole can be seen in the PDR. This occurs because of the random node mobility. For our simulations using NS-2:35 as a tool.

     

  • References

    1. [1] Dokurer, S., Erten, Y. M., & Acar, C. E. (2007). Performance analysis of ad-hoc networks under black hole attacks. Proceedings of the IEEE Southeast Conference, pp. 148-153.

      [2] Dokurer, S. (2006). Simulation of Black hole attack in wireless Ad-hoc networks. Master thesis, Atılım University.

      [3] Bhattercharjee, A., & Paul, S. (2014). A review on some aspects of black hole attack in MANET. International Journal of Engineering Trends and Technology, 10(8), 396-401.

      [4] Ducatelle, F., Di Caro, G., & Gambardella, L. M. (2005). Using ant agents to combine reactive and proactive strategies for routing in mobile ad-hoc networks. International Journal of Computational Intelligence and Applications, 5(2), 169-184.

      [5] Misra, S., Dhurandher, S. K., Obaidat, M. S., Gupta, P., Verma, K., & Narula, P. (2010). An ant swarm-inspired energy-aware routing protocol for wireless ad-hoc networks. Journal of Systems and Software, 83(11), 2188-2199.

      [6] Kanani, C., & Sinhal, A. (2013). Ant colony optimization based modified AOMDV for multipath routing in MANET. International Journal of Computer Applications, 82(10), 14-19.

      [7] Sharma, S., & Gupta, R. (2009). Simulation study of blackhole attack in the mobile ad hoc networks. Journal of Engineering Science and Technology, 4(2), 243-250.

      [8] Esmaili, H. A., & Shoja, M. R. (2011). Performance analysis of AODV under black hole attack through use of OPNET simulator. World of Computer Science and Information Technology Journal, 1(2), 49-52.

      [9] Ghonge, M., & Nimbhorkar, S. U. (2012). Simulation of AODV under blackhole attack in MANET. International Journal of Advanced Research in Computer Science and Software Engineering, 2(2), 1-5.

      [10] Bansal, E., & Verma, A. K. G. (2013). Improving performance of AODV using ant agents. Master thesis, Thapar University.

      [11] Singh, G., Kumar, N., & Verma, A. K. (2014). Antalg: An innovative ACO based routing algorithm for MANETs. Journal of Network and Computer Applications, 45, 151-167.

      [12] Woungang, I., Obaidat, M. S., Dhurandher, S. K., Ferworn, A., & Shah, W. (2013, June). An ant-swarm inspired energy-efficient ad hoc on-demand routing protocol for mobile ad hoc networks. Proceedings of the IEEE International Conference on Communications pp. 3645-3649.

      [13] Singh, G., Kumar, N. G., & Verma, A. K. (2014). Design and development of ACO routing protocol for MANETs. PhD thesis, Thapar University.

      [14] Misra, P. (1999). Routing protocols for ad hoc mobile wireless networks. http://suraj.lums.edu.pk/~cs678/papers/17_routing_for_ad_hoc.pdf.

      [15] Royer, E. M., & Toh, C. K. (1999). A review of current routing protocols for ad hoc mobile wireless networks. IEEE Personal Communications, 6(2), 46-55.

  • Downloads

  • How to Cite

    Mayang, A., & Galih, S. (2018). Comparative Performance AODV-ANT and AOMDV-ANT in BlackHole. International Journal of Engineering & Technology, 7(4.34), 358-363. https://doi.org/10.14419/ijet.v7i4.34.25780