Multi-HAPS Network Implementation within 3GPP’s NTN framework for 5G and beyond

International Journal of Information, Communication Technology and Applications Pub Date : 2021-12-30 DOI:10.17972/ijicta20217152

Ogbonnaya Anicho, P. Charlesworth, G. Baicher, Atulya Nagar

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引用次数: 1

Abstract

High Altitude Platform Station (HAPS) is part of the 3GPP defined non-terrestrial network (NTN) infrastructure for 5G networks. Various technical studies by 3GPP have addressed NTN-based implementations and have significantly studied satellite-based scenarios. However, the study does not sufficiently address HAPS or multi-HAPS based scenarios specifically. Though HAPS, is captured under Unmanned Aerial Systems (UAS), it has unique operational realities that set it apart from other NTN platforms. For instance, HAPS come in different variants of fixed-wing, balloons and airships. This paper highlights the need for expanded studies specifically aimed at HAPS for more seamless integration. The work also analyses the Doppler effect associated with fixed-wing HAPS systems to further demonstrate how operational scenarios may differ for these platforms and the need for targeted studies. HAPS is expected to contribute significantly to the NTN-based implementations and may require more specialised considerations within the 3GPP NTN technical specification process, especially for 5G and beyond 5G (B5G) networks.

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在3GPP的NTN框架内实现5G及以后的Multi-HAPS网络

高空平台站(HAPS)是3GPP为5G网络定义的非地面网络(NTN)基础设施的一部分。3GPP的各种技术研究已经解决了基于ntn的实现，并对基于卫星的场景进行了大量研究。然而，该研究并没有充分解决HAPS或基于多HAPS的具体方案。尽管HAPS是在无人机系统(UAS)下捕获的，但它具有独特的操作现实，使其与其他NTN平台区别开来。例如，HAPS有固定翼、气球和飞艇的不同变体。本文强调有必要扩大专门针对HAPS的研究，以实现更无缝的整合。该工作还分析了与固定翼HAPS系统相关的多普勒效应，以进一步展示这些平台的操作场景可能有何不同，以及有针对性研究的必要性。HAPS预计将对基于NTN的实现做出重大贡献，并可能需要在3GPP NTN技术规范过程中进行更多专门考虑，特别是对于5G和超越5G (B5G)网络。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Information, Communication Technology and Applications

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