TR2023-140

Minimizing Route Overlap for Priority Data Delivery in Next Generation IoT Networks


    •  Guo, J., Sumi, T., Kawashima, Y., Parsons, K., Nagai, Y., Orlik, P.V., "Minimizing Route Overlap for Priority Data Delivery in Next Generation IoT Networks", IEEE Global Communications Conference (GLOBECOM), December 2023.
      BibTeX TR2023-140 PDF
      • @inproceedings{Guo2023dec,
      • author = {Guo, Jianlin and Sumi, Takenori and Kawashima, Yuki and Parsons, Kieran and Nagai, Yukimasa and Orlik, Philip V.},
      • title = {Minimizing Route Overlap for Priority Data Delivery in Next Generation IoT Networks},
      • booktitle = {IEEE Global Communications Conference (GLOBECOM)},
      • year = 2023,
      • month = dec,
      • url = {https://www.merl.com/publications/TR2023-140}
      • }
  • MERL Contacts:
  • Research Areas:

    Communications, Signal Processing

Abstract:

With the advent of 5G and beyond communication technologies, the consumer IoT devices are evolving from current generation to next generation. The next generation IoT devices are capable of supporting multiple communication modes and performing more functions. During the migration phase, it is impractical to completely remove the deployed current generation devices. Accordingly, the next generation IoT networks will consist of the mixed current and next generation devices. To that end, how to efficiently route diverse data in next generation IoT networks needs to be addressed. This paper presents a two-topology routing architecture for next generation IoT networks, one topology for regular data delivery and another topology for priority data delivery. The priority routes are discovered to minimize route overlap. We evaluated our route discovery algorithms under varying network configurations. Compared with standard RPL baseline, the proposed routing algorithms can simultaneously reduce route overlap, route transmission time and route length.