The Impact of Higher Order Sectorisation on the Performance of Millimetre Wave 5G Network

2016 10th International Conference on Next Generation Mobile Applications, Security and Technologies (NGMAST) Pub Date : 2016-12-29 DOI:10.1109/NGMAST.2016.20

N. Al-Falahy, O. Alani

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引用次数: 11

Abstract

The fifth Generation (5G) mobile network will provide services with extreme data rate and latency demands compared to current cellular network, and provide massive capacity and connectivity to multitude of devices with diverse requirements and applications. Therefore, it is important to utilise all network resources to provide the 5G vision. In this paper, performance evaluations and impact of higher order horizontal sectorisation on next generation 5G mobile access is presented. The study has been focused on busy urban areas in high carrier frequency. Millimetre wave band has precious wide unexploited bandwidth that can be harnessed for mobile communication. The results for these scenarios show that higher-order horizontal sectorisation in millimetre wave based smallcell deployment can significantly increase the network capacity to meet the future requirement of 5G network, and provide high data rate and connectivity to huge number of devices. Moreover, beamforming can highly increase the data rate by efficiently increase signal power and suppress interference from unwanted directions.

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高阶分割对毫米波5G网络性能的影响

与目前的蜂窝网络相比，第五代(5G)移动网络将提供具有极高数据速率和延迟需求的服务，并为具有不同需求和应用的众多设备提供巨大的容量和连接。因此，利用所有网络资源来提供5G愿景非常重要。本文介绍了高阶水平分割对下一代5G移动接入的性能评估和影响。这项研究主要集中在繁忙的高载波频率城市地区。毫米波波段具有宝贵的未开发带宽，可用于移动通信。这些场景的结果表明，基于毫米波的小蜂窝部署中的高阶水平扇区可以显着增加网络容量，以满足未来5G网络的需求，并为大量设备提供高数据速率和连接。此外，波束形成可以有效地提高信号功率，抑制不需要的方向干扰，从而大大提高数据速率。

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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2016 10th International Conference on Next Generation Mobile Applications, Security and Technologies (NGMAST)

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