Main Reference PaperA Novel Adaptive and Efficient Routing Update Scheme for Low-Power Lossy Networks in IoT., 2018 [Contiki-Cooja Simulator]
  • Ghaleb, Baraq, Ahmed Y. Al-Dubai, Elias Ekonomou, Imed Romdhani, Youssef Nasser, and Azzedine Boukerche

Author Name(s):
  • Ghaleb, Baraq, Ahmed Y. Al-Dubai, Elias Ekonomou, Imed Romdhani, Youssef Nasser, and Azzedine Boukerche

  • IEEE Internet of Things Journal, 2018

Journal Name and year:
  • IEEE Internet of Things Journal, 2018

  • 10.1109/JIOT.2018.2862364

DOI:
  • 10.1109/JIOT.2018.2862364

  • Internet of Things (IoT)

Research Area:
  • Internet of Things (IoT)

  • In this paper, we introduce Drizzle, a new algorithm for maintaining routing information in the low-power and lossy networks

  • The aim is to address the limitations of the currently standardized routing maintenance (i.e., Trickle algorithm) in such networks.

  • Unlike Trickle, Drizzle has an adaptive suppression mechanism that assigns the nodes different transmission probabilities based on their transmission history so to boost the fairness in the network.

  • In addition, Drizzle removes the listen-only period presented in Trickle intervals leading to faster convergence time.

  • Furthermore, a new scheme for setting the redundancy counter has been introduced with the goal to mitigate the negative side effect of the short-listen problem presented when removing the listen-only period and boost further the fairness in the network

  • The performance of the proposed algorithm is validated through extensive simulation experiments under different scenarios and operation conditions.

  • In particular, Drizzle is compared to four routing maintenance algorithms in terms of control-plane overhead, power consumption, convergence time, and packet delivery ratio (PDR) under uniform and random distributions and with lossless and lossy links

  • The results indicated that Drizzle reduces the control-plane overhead, power consumption and the convergence time by up to 76%, 20%, and 34%, respectively, while maintaining approximately the same PDR rates.

Abstract:
  • In this paper, we introduce Drizzle, a new algorithm for maintaining routing information in the low-power and lossy networks

  • The aim is to address the limitations of the currently standardized routing maintenance (i.e., Trickle algorithm) in such networks.

  • Unlike Trickle, Drizzle has an adaptive suppression mechanism that assigns the nodes different transmission probabilities based on their transmission history so to boost the fairness in the network.

  • In addition, Drizzle removes the listen-only period presented in Trickle intervals leading to faster convergence time.

  • Furthermore, a new scheme for setting the redundancy counter has been introduced with the goal to mitigate the negative side effect of the short-listen problem presented when removing the listen-only period and boost further the fairness in the network

  • The performance of the proposed algorithm is validated through extensive simulation experiments under different scenarios and operation conditions.

  • In particular, Drizzle is compared to four routing maintenance algorithms in terms of control-plane overhead, power consumption, convergence time, and packet delivery ratio (PDR) under uniform and random distributions and with lossless and lossy links

  • The results indicated that Drizzle reduces the control-plane overhead, power consumption and the convergence time by up to 76%, 20%, and 34%, respectively, while maintaining approximately the same PDR rates.

  • 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

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