Concept, design, and prototype of shared base station supporting millimeter waves for 5G cellular networks

2017 20th International Symposium on Wireless Personal Multimedia Communications (WPMC) Pub Date : 2017-12-01 DOI:10.1109/WPMC.2017.8301827

T. Matsumura, Kazuo Ibuka, K. Ishizu, H. Murakami, F. Kojima

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引用次数: 6

Abstract

In the 5G cellular networks, micro-cells using mmW (millimeter Wave) bands will be densely deployed to enhance communication speed and capacity. On the other hand, mobile network operators are facing a significant challenge of how to realize ultra-dense micro-cell networks in a cost-effective manner. Recently, a new concept of network sharing toward multi-tenancy networks has been proposed and studied. In this concept, network resources including the BS (Base Station) are shared by multiple operators, resulting in significant cost reduction. In this respect, the shared BS needs to support several RATs (Radio Access Technologies) including mmW bands for providing a variety of communication systems. In this study, we prototype a shared BS supporting mmW bands based on the LTE system, by applying the frequency conversion technology to the off-the-shelf LTE eNB. This shared BS is mainly composed of an IF transceiver unit for the 4.5 GHz band and RF converter units for 28 GHz and 32 GHz bands. In addition, by applying the same architecture to the off-the-shelf UE, we successfully demonstrate the data transmission between the shared BS and the UE in 4.5 GHz, 28 GHz, and 32 GHz bands.

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支持5G蜂窝网络毫米波的共享基站的概念、设计和原型

在5G蜂窝网络中，将密集部署使用毫米波(mmW)频段的微蜂窝，以提高通信速度和容量。另一方面，移动网络运营商正面临着如何以经济高效的方式实现超密集微蜂窝网络的重大挑战。近年来，针对多租户网络提出并研究了网络共享的新概念。在这个概念中，包括基站(BS)在内的网络资源由多个运营商共享，从而大大降低了成本。在这方面，共享BS需要支持包括毫米波频带在内的多个rat(无线接入技术)，以提供各种通信系统。在本研究中，我们通过将频率转换技术应用于现成的LTE eNB，对基于LTE系统的支持毫米波频段的共享BS进行了原型设计。该共享BS主要由4.5 GHz频段的中频收发器单元和28 GHz和32 GHz频段的射频转换器单元组成。此外，通过将相同的架构应用于现成的终端，我们成功地演示了共享BS与终端之间在4.5 GHz, 28 GHz和32 GHz频段上的数据传输。

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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2017 20th International Symposium on Wireless Personal Multimedia Communications (WPMC)

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