Uninterrupted Connectivity Time in THz Systems Under User Micromobility and Blockage

2021 IEEE Global Communications Conference (GLOBECOM) Pub Date : 2021-12-01 DOI:10.1109/GLOBECOM46510.2021.9685384

D. Moltchanov, Vitalii Beschastnyi, Darya Y. Ostrikova, Yulia Gaidamaka, Y. Koucheryavy

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引用次数: 1

Abstract

Terahertz (THz) band is considered as the main candidate for new radio access technology in sixth-generation (6G) cellular systems. However, the performance of these systems will be severely affected by not only blockage but user equipment (UE) micromobility in hands of a user. The negative effects of these phenomena can be alleviated by utilizing the multi-connectivity functionality that allows UE to maintain two or more links to nearby base stations (BS) and use them when the currently active link is lost. By accounting for THz specific propagation, antenna and beamsearching design, the density of THz BS deployment, and multi-connectivity operation, we investigate the successful session completion probability under both types of impairments. Our results indicate that the gains of multi-connectivity are observed up to 5 simultaneously supported links and heavily depend on the application outage tolerance time and is mostly affected by micromobility. To improve it, one needs to ensure that the application may tolerate outage caused by beamsearching time which is on the order of milliseconds.

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用户微移动和阻塞下太赫兹系统的不间断连接时间

太赫兹(THz)频段被认为是第六代(6G)蜂窝系统中新的无线电接入技术的主要候选者。然而，这些系统的性能不仅会受到阻塞的严重影响，还会受到用户手中用户设备(UE)微移动性的严重影响。这些现象的负面影响可以通过利用多连接功能来缓解，该功能允许UE与附近的基站(BS)保持两个或多个链路，并在当前活动链路丢失时使用它们。通过考虑太赫兹特定传播、天线和波束搜索设计、太赫兹BS部署密度和多连接操作，研究了两种损伤下会话成功完成的概率。我们的研究结果表明，多连接的增益最多可以同时支持5条链路，并且在很大程度上取决于应用程序的中断容忍时间，并且主要受微移动性的影响。为了改进它，需要确保应用程序可以容忍由波束搜索时间(毫秒级)引起的中断。

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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2021 IEEE Global Communications Conference (GLOBECOM)

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