用归一化方法分析海量多输入多输出系统线性预编码的和率

2017 International Conference on Communication, Control, Computing and Electronics Engineering (ICCCCEE) Pub Date : 1900-01-01 DOI:10.1109/ICCCCEE.2017.7867636

Ali. M. A. Ibrahim, M. Abdelwahab

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引用次数: 1

摘要

大规模MIMO技术是第五代蜂窝通信网络最有希望的解决方案，它通过在数百个基站上布置天线来提高移动通信的数据速率。为了应对网络中巨大的通信需求，人们发现在同一时隙的同一带宽下为多个接收端提供服务是非常有用的。本文采用向量归一化和矩阵归一化方法研究了零强迫(ZF)、匹配滤波器(MF)和最大比传输(MRT)的预编码设计。文中还推导了每个预编码的和率公式。根据分析结果，我们发现在低功率下，矢量归一化时MF具有最佳性能，而矩阵归一化时ZF具有最佳性能。此外，ZF在高功率下提供了最佳的矢量/矩阵归一化性能。结果用图形表示，以证实分析结果。

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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Sum rate analysis of massive Multiple Input Multiple Output system for linear precoding using normalization methods

The hopeful technique Massive MIMO is provided to increase the data rates of mobile communication, by arranging antennas to hundreds of the base stations which is the most promising solution for the fifth generation of cellular communication network. In order to cope with the huge demands of communications in the network it has been found that it is useful to have multiple receivers served in the same bandwidth during the same time slot. The paper considered vector and matrix normalization for studying the precoding designs of zero-forcing (ZF), matched filter (MF) and maximum ratio transmission (MRT). The paper also derive the sum rate formulate for every precoding. Depending on the analytical results, we found that in low power MF gives the best performance with vector normalization and ZF gives the best performance with matrix normalization. Also, ZF provides the best performance with vector/matrix normalization in high power. The results represented graphically to confirm the analytical results.

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来源期刊

2017 International Conference on Communication, Control, Computing and Electronics Engineering (ICCCCEE)

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