Efficient multi-user MIMO transmissions in the LTE-A uplink

2016 1st International Workshop on Link- and System Level Simulations (IWSLS) Pub Date : 2016-07-01 DOI:10.1109/IWSLS.2016.7801581

Lukas Nagel, Stefan Pratschner, Stefan Schwarz, M. Rupp

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引用次数: 7

Abstract

Single-User Multiple-Input Multiple-Output (MIMO) transmissions are possible since Rel. 10 of 3GPP LTE-A. The Closed Loop Spatial Multiplexing (CLSM) transmission mode enables up to a four fold increase in spectral efficiency compared to Rel. 8, yet it requires complex User Equipment (UE) hardware supporting more than one transmit antenna. The closed loop spatial multiplexing transmission mode enables up to a four fold increase in spectral efficiency compared to Rel. 8, yet it requires complex UE hardware supporting more than one transmit antenna. As it is likely that the Base Station (BS) has more receive antennas than the UE transmit antennas, employing Multi-User (MU) MIMO transmissions in the uplink can lead to significant improvement in cell throughput. We formulate MU MIMO transmissions with linear receivers as a compact matrix system model. Based on our model we present a post-equalization SINR equation, allowing the calculation of a quantized feedback parameter, the Channel Quality Indicator (CQI) value. Within this framework we reveal possible MU gains through known scheduling algorithms although the frequency selective channel is approximated by its arithmetic mean.

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LTE-A上行链路中高效的多用户MIMO传输

从3GPP LTE-A的Rel. 10开始，单用户多输入多输出(MIMO)传输成为可能。与Rel. 8相比，闭环空间复用(CLSM)传输模式使频谱效率提高了四倍，但它需要复杂的用户设备(UE)硬件支持多个发射天线。与Rel. 8相比，闭环空间复用传输模式使频谱效率提高了四倍，但它需要复杂的UE硬件支持多个发射天线。由于基站(BS)的接收天线可能多于终端发射天线，因此在上行链路中采用多用户(MU) MIMO传输可以显著提高小区吞吐量。我们将线性接收机的MU MIMO传输作为一个紧凑的矩阵系统模型。基于我们的模型，我们提出了一个后均衡SINR方程，允许计算量化反馈参数，通道质量指标(CQI)值。在这个框架内，我们揭示了通过已知调度算法可能获得的MU增益，尽管频率选择信道是由其算术平均值近似的。

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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2016 1st International Workshop on Link- and System Level Simulations (IWSLS)

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