Analysis of handover performance improvement in cloud-RAN architecture

7th International Conference on Communications and Networking in China Pub Date : 2012-08-01 DOI:10.1109/ChinaCom.2012.6417603

Liang Liu, Feng Yang, Richard Wang, Zhenning Shi, Alan Stidwell, Daqing Gu

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引用次数: 28

Abstract

With the surge of mobile internet traffic, Cloud RAN (C-RAN) becomes an innovative architecture to help mobile operators maintain profitability and financial growth as well as to provide better services to the customers. It consists of Base Band Units (BBU) of several base stations, which are co-located in a secured place called Central Office and connected to Radio Remote Heads (RRH) via high bandwidth, low latency links. With BBU centralization in C-RAN, handover, the most important feature for mobile communications, could achieve simplified procedure or improved performance. In this paper, we analyze the handover performance of C-RAN over a baseline decentralized RAN (D-RAN) for GSM, UMTS and LTE systems. The results indicate that, lower total average handover interrupt time could be achieved in GSM thanks to the synchronous nature of handovers in C-RAN. For UMTS, inter-NodeB soft handover in D-RAN would become intra-pool softer handover in C-RAN. This brings some gains in terms of reduced signalling, less Iub transport bearer setup and reduced transport bandwidth requirement. For LTE X2-based inter-eNB handover, C-RAN could reduce the handover delay and to a large extent eliminate the risk of UE losing its connection with the serving cell while still waiting for the handover command, which in turn decrease the handover failure rate.

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云- ran架构中切换性能改进分析

随着移动互联网流量的激增，云RAN (C-RAN)成为帮助移动运营商保持盈利能力和财务增长以及为客户提供更好服务的创新架构。它由几个基站的基带单元(BBU)组成，这些基站共同位于一个称为中央局的安全位置，并通过高带宽，低延迟链路连接到无线电远程头(RRH)。随着C-RAN中BBU的集中化，切换这一移动通信最重要的特性可以简化流程或提高性能。在本文中，我们分析了C-RAN在GSM, UMTS和LTE系统的基线分散RAN (D-RAN)上的切换性能。结果表明，由于C-RAN中切换的同步特性，在GSM中可以实现较低的总平均切换中断时间。对于UMTS来说，D-RAN中的节点间软切换将变成C-RAN中的池内软切换。这在减少信令、减少ub传输承载设置和减少传输带宽需求方面带来了一些好处。对于基于LTE x2的enb间切换，C-RAN可以减少切换延迟，在很大程度上消除了终端在等待切换命令时失去与服务小区连接的风险，从而降低了切换失败率。

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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7th International Conference on Communications and Networking in China

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