Facilitating satellite-airborne-balloon-terrestrial integration for dynamic and infrastructure-less networks
A Alsharoa, MS Alouini - arXiv preprint arXiv:2111.07506, 2021 - arxiv.org
arXiv preprint arXiv:2111.07506, 2021•arxiv.org
This magazine investigates the potential enhancement of the data throughput of ground
users by integrating ground base stations (GBS) with air stations, such as balloon, airborne,
and satellite. The objective is to establish dynamic bi-directional wireless services (ie, uplink
and downlink) for ground users in congested and remote areas. The proposed integration
involves satellite, high-altitude platforms (HAPs), and tethered balloons (TBs) in the
exosphere, stratosphere, and troposphere, respectively, for better altitude reuse coupled …
users by integrating ground base stations (GBS) with air stations, such as balloon, airborne,
and satellite. The objective is to establish dynamic bi-directional wireless services (ie, uplink
and downlink) for ground users in congested and remote areas. The proposed integration
involves satellite, high-altitude platforms (HAPs), and tethered balloons (TBs) in the
exosphere, stratosphere, and troposphere, respectively, for better altitude reuse coupled …
This magazine investigates the potential enhancement of the data throughput of ground users by integrating ground base stations (GBS) with air stations, such as balloon, airborne, and satellite. The objective is to establish dynamic bi-directional wireless services (i.e., uplink and downlink) for ground users in congested and remote areas. The proposed integration involves satellite, high-altitude platforms (HAPs), and tethered balloons (TBs) in the exosphere, stratosphere, and troposphere, respectively, for better altitude reuse coupled with emerging optical or other high-frequency directional transceivers. This will lead to a significant enhancement in scarce spectrum aggregate efficiency. However, the air stations deployment and resource managements in this integrated system faces difficulties. This article tackles resource management challenges by (i) providing wireless services to ground users in remote areas and connecting them with metropolitan and rural areas and (ii) employing HAPs equipped with free-space-optical communication modules as back-hauling backbones. Finally, we illustrate some numerical results to show the benefit of our proposed integrated system.
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