Main Reference PaperAnalysis and enhancement of RPL under packet drop attacks, 2017, [Contiki-Cooja Simulator]
  • Chen, Binbin, Yuan Li, and Daisuke Mashima

Author Name(s):
  • Chen, Binbin, Yuan Li, and Daisuke Mashima

  • International Conference on Communication Systems & Networks (COMSNETS), 2018

Journal Name and year:
  • International Conference on Communication Systems & Networks (COMSNETS), 2018

  • 10.1109/COMSNETS.2018.8328194

DOI:
  • 10.1109/COMSNETS.2018.8328194

  • Internet of Things (IoT)

Research Area:
  • Internet of Things (IoT)

  • We study the performance of IPv6 Routing Protocol for Low-Power and Lossy Networks (RPL) under packet drop attacks.

  • We consider an external jamming attacker who can selectively interfere with traffic around a targeted router.

  • We show that the RPL implementation in Contiki OS allows such an attacker to continuously drop packets forwarded via the targeted router without triggering any rerouting, even when link-layer security mechanisms are in place.

  • To counter such attacks, we design and analyze additional measures that can be built on RPL

  • In particular, we show that adding measures at the targeted router is more effective than doing so at affected children nodes

  • We also evaluate the performance of our enhanced RPL using Cooja, the Contiki network simulator

  • Our results show that our proposed measures have the potential to significantly reduce the fraction of packets being dropped without affecting RPL’s performance when there is no attack.

Abstract:
  • We study the performance of IPv6 Routing Protocol for Low-Power and Lossy Networks (RPL) under packet drop attacks.

  • We consider an external jamming attacker who can selectively interfere with traffic around a targeted router.

  • We show that the RPL implementation in Contiki OS allows such an attacker to continuously drop packets forwarded via the targeted router without triggering any rerouting, even when link-layer security mechanisms are in place.

  • To counter such attacks, we design and analyze additional measures that can be built on RPL

  • In particular, we show that adding measures at the targeted router is more effective than doing so at affected children nodes

  • We also evaluate the performance of our enhanced RPL using Cooja, the Contiki network simulator

  • Our results show that our proposed measures have the potential to significantly reduce the fraction of packets being dropped without affecting RPL’s performance when there is no attack.

  • Operating System : Ubuntu 12.04 LTS 64bit

  • Simulator: Cooja, Instant Contiki-3.0 and Vmware Player 12.5.6

  • Language: C

Software Tools & Technologies
  • Operating System : Ubuntu 12.04 LTS 64bit

  • Simulator: Cooja, Instant Contiki-3.0 and Vmware Player 12.5.6

  • Language: C

  • M.E / M.Tech/ MS / Ph.D.- Customized according to the client requirements.

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