System level performance of uplink transmission in split-PHY processing architecture with joint reception for future radio access

2015 IEEE 26th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC) Pub Date : 2015-12-03 DOI:10.1109/PIMRC.2015.7343513

N. Shibata, K. Miyamoto, S. Kuwano, J. Terada, A. Otaka

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引用次数: 13

Abstract

In this paper, the system level performance of uplink transmission in the split-PHY processing (SPP) architecture is evaluated. The SPP architecture splits the PHY functions of the base station so that some PHY functions are implemented on the remote radio head (RRH). Compared to the centralized radio access network (C-RAN) architecture with common public radio interface (CPRI), the SPP architecture significantly reduces the required optical bandwidth in the mobile front-haul. Moreover, by implementing the FEC processing in the baseband unit (BBU), joint reception can be realized in uplink transmissions by forwarding the quantized log likelihood ratio (LLR) from RRHs to the BBU. System level evaluations show that the SPP architecture improves the cell-edge user throughput by 116 % compared with the MAC-PHY split architecture without coordinated operations while reducing the required optical bandwidth by 92 % compared with the C-RAN architecture.

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面向未来无线接入的联合接收分离式物理层处理体系结构中上行传输的系统级性能

本文对SPP (split-PHY processing)架构下的上行链路传输系统级性能进行了评估。SPP体系结构将基站的物理层功能进行拆分，使某些物理层功能在远程无线电头(RRH)上实现。与具有公共无线电接口(CPRI)的集中式无线接入网(C-RAN)体系结构相比，SPP体系结构显著降低了移动前传所需的光带宽。此外，通过在基带单元(BBU)中实现FEC处理，通过将量化对数似然比(LLR)从RRHs转发到BBU，实现上行传输的联合接收。系统级评估表明，与没有协调操作的MAC-PHY分割架构相比，SPP架构将蜂窝边缘用户吞吐量提高了116%，而与C-RAN架构相比，所需的光带宽减少了92%。

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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2015 IEEE 26th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC)

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