Role of Millimeter Wave for Future 5G Mobile Networks: Its Potential, Prospects and Challenges

2021 1st Odisha International Conference on Electrical Power Engineering, Communication and Computing Technology(ODICON) Pub Date : 2021-01-08 DOI:10.1109/ODICON50556.2021.9429017

Sidharth Mohanty, Arun Agarwal, Kabita Agarwal, S. Mali, G. Misra

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引用次数: 6

Abstract

5G mobile communications targets at having high data bandwidth, endless networking ability for information exchange and huge signal coverage capability to the end users in order to support a well off range of high quality adapted services. Making this 5G vision a reality governs concept of 5G New Radio (NR) defined by 3GPP, a air border design that will bring new levels of elasticity, scalability, and efficiency to meet the increasing connectivity needs in the next era and beyond. It has determined the usability of the beneath-exploited millimeter-wave (mm Wave) radio spectrum for the upcoming 5G broadband wireless communication networks. The mmWaves propagation channel fact is required to its core based for the effective placement of mmWaves mobile communication systems. It exists between series of 3300GHz bandwidth in mmWaves spectrum ranges. The main trials, keys and benefits linked in perspective with evolving of 5G mobile wireless networks. This paper extant the features the mmWaves propagation channel, and highpoint.

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毫米波在未来5G移动网络中的作用:潜力、前景和挑战

5G移动通信的目标是具有高数据带宽、无限的信息交换组网能力和对最终用户的巨大信号覆盖能力，以支持范围广泛的高质量自适应业务。为了实现这一5G愿景，3GPP定义了5G新无线电(NR)概念，这是一种空中边界设计，将带来更高水平的弹性、可扩展性和效率，以满足下一个时代及以后不断增长的连接需求。它已经确定了即将到来的5G宽带无线通信网络的毫米波(mm Wave)无线电频谱的可用性。毫米波传播信道特性是毫米波移动通信系统有效部署的核心要求。它存在于毫米波频谱范围的3300GHz带宽系列之间。主要的试验、关键和好处与5G移动无线网络的发展相关联。本文阐述了毫米波传播信道的特点和特点。

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 1st Odisha International Conference on Electrical Power Engineering, Communication and Computing Technology(ODICON)

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