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Main Authors: Feng, Wei, Wang, Yanmin, Chen, Yunfei, Ge, Ning, Wang, Cheng-Xiang
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2402.07359
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author Feng, Wei
Wang, Yanmin
Chen, Yunfei
Ge, Ning
Wang, Cheng-Xiang
author_facet Feng, Wei
Wang, Yanmin
Chen, Yunfei
Ge, Ning
Wang, Cheng-Xiang
contents The upcoming sixth generation (6G) wireless communication network is envisioned to cover space, air, and maritime areas, in addition to urban-centered terrestrial coverage by the fifth generation (5G) network, to support intelligent Internet of Things (IoT). Towards this end, we investigate structured integration of satellites, unmanned aerial vehicles (UAVs), and terrestrial networks, aiming to serve future universal IoT possibly with a massive number of devices in the coverage holes of current 5G. The hybrid satellite-UAV-terrestrial network usually leads to high system complexity, due to the heterogeneity and dynamics of space/air/ground links. With a systematic thinking, we propose to create and exploit hierarchies for the integrated network. Four basic structures are discussed by learning from the synergies in our human body. To orchestrate multiple heterogeneous basic structures, we further propose a process-oriented on-demand coverage method, which characterizes the system behavior as a series of events over time and is able to tackle the system complexity elaborately. We also outline open issues for promoting the agility and intelligence of structured satellite-UAV-terrestrial networks in the making.
format Preprint
id arxiv_https___arxiv_org_abs_2402_07359
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Structured Satellite-UAV-Terrestrial Networks for 6G Internet of Things
Feng, Wei
Wang, Yanmin
Chen, Yunfei
Ge, Ning
Wang, Cheng-Xiang
Information Theory
The upcoming sixth generation (6G) wireless communication network is envisioned to cover space, air, and maritime areas, in addition to urban-centered terrestrial coverage by the fifth generation (5G) network, to support intelligent Internet of Things (IoT). Towards this end, we investigate structured integration of satellites, unmanned aerial vehicles (UAVs), and terrestrial networks, aiming to serve future universal IoT possibly with a massive number of devices in the coverage holes of current 5G. The hybrid satellite-UAV-terrestrial network usually leads to high system complexity, due to the heterogeneity and dynamics of space/air/ground links. With a systematic thinking, we propose to create and exploit hierarchies for the integrated network. Four basic structures are discussed by learning from the synergies in our human body. To orchestrate multiple heterogeneous basic structures, we further propose a process-oriented on-demand coverage method, which characterizes the system behavior as a series of events over time and is able to tackle the system complexity elaborately. We also outline open issues for promoting the agility and intelligence of structured satellite-UAV-terrestrial networks in the making.
title Structured Satellite-UAV-Terrestrial Networks for 6G Internet of Things
topic Information Theory
url https://arxiv.org/abs/2402.07359