Aerospace (Apr 2023)

A B5G Non-Terrestrial-Network (NTN) and Hybird Constellation Based Data Collection System (DCS)

  • Yifei Jiang,
  • Wanxia He,
  • Wenzheng Liu,
  • Shufan Wu,
  • Xiao Wei,
  • Qiankun Mo

DOI
https://doi.org/10.3390/aerospace10040366
Journal volume & issue
Vol. 10, no. 4
p. 366

Abstract

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In beyond 5G (B5G) non-terrestrial network (NTN) systems, satellite technologies play an important role. Especially for data collection systems (DCS), low-earth orbit satellites have many advantages. Such as global coverage, low latency, and high efficiency. As a miniaturization technology, CubeSat has attracted extensive attention from a large number of scholars. Satellite constellations can coordinate for distributed tasks. This paper proposes a B5G NTN-based data collection system. A CubeSat constellation achieves global coverage as the basic space platform for DCS. The 5G terrestrial network is used as the data bearer network of the gateway station. A traffic load balance strategy is proposed to optimize the system’s efficiency. As a unified hardware platform, software-defined radio (SDR) is compatible with various sensor data models. Finally, the design was verified by a series of experiments.

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