Network Availability of Hybrid FSO/mmW 5G Fronthaul Network in C-RAN Architecture

Menoufia Journal of Electronic Engineering Research Pub Date : 1900-01-01 DOI:10.21608/mjeer.2019.62758

Mahmoud A. Hasabelnaby, H. Selmy, M. Dessouky

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Abstract

New innovation approach called -centralized radio access network(Cloud-RAN or C-RAN) - architecture is developed to meet theexplosive growth in mobile traffic in the 5th generation (5G) mobilenetworks especially in the need of high-speed, high capacity, realtimedata, and high-reliability. In C-RAN architecture, fronthaulnetworks connect between the radio units called -Remote RadioHeads (RRHs)- and the processing unit called -Base BandProcessing Unit (BBU)-. Recently, hybrid free space optics (FSO)and millimeter waves (mmW) network is considered to be apromising solution that can match with the requirements of 5Gfronthaul networks. In this paper, hybrid FSO/mmW links at eachRRH is proposed to enhance the performance of C-RAN fronthaulnetwork at various weather conditions. The performance of hybridFSO/mmW technology as a fronthaul network is evaluated atdifferent weather conditions and compared to other technologies.The numerical results reveal that improvements are obtained innetwork reliability using hybrid FSO/mmW fronthaul network,especially at severe weather conditions.

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C-RAN架构下FSO/mmW混合5G前传网络的网络可用性

集中式无线接入网(Cloud-RAN或C-RAN)架构是一种新的创新方法，旨在满足第五代(5G)移动网络中移动流量的爆炸式增长，特别是对高速、高容量、实时数据和高可靠性的需求。在C-RAN架构中，前端网络连接被称为远程无线电头(RRHs)的无线电单元和被称为基带处理单元(BBU)的处理单元。近年来，自由空间光学(FSO)和毫米波(mmW)混合网络被认为是一种很有前途的解决方案，可以满足5g前传网络的要求。为了提高C-RAN前网在各种天气条件下的性能，本文提出了每个rrh的混合FSO/mmW链路。混合dfso /毫米波技术作为前传网络的性能在不同的天气条件下进行了评估，并与其他技术进行了比较。数值计算结果表明，采用FSO/mmW混合前传网络可以提高网络的可靠性，特别是在恶劣天气条件下。

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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Menoufia Journal of Electronic Engineering Research

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