Experimental evaluations on carrier aggregation and multi-user MIMO associated with EVD-based CSI feedback for LTE-Advanced downlink

2011 8th International Symposium on Wireless Communication Systems Pub Date : 2011-11-01 DOI:10.1109/ISWCS.2011.6125289

Yuichi Kakishima, K. Takeda, T. Kawamura, Y. Kishiyama, H. Taoka, Takehiro Nakamura

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引用次数: 14

Abstract

This paper presents laboratory experimental results on 4-by-2 multi-user (MU)-MIMO multiplexing with two mobile stations (MSs) in the LTE-Advanced downlink in combination with carrier aggregation (CA) using 5 component carriers (CCs). Extended channel state information (CSI) feedback functionality based on eigenvalue decomposition (EVD) is implemented into real-time experimental equipment based on the LTE-Advanced radio interface to support MU-MIMO operations applying minimum mean square error (MMSE)-based precoding. Laboratory experiments are conducted assuming a multi-path fading environment based on different antenna configurations. The experimental results show that 4-by-2 MU-MIMO with two data streams per MS achieves a peak throughput of greater than 950 Mbps, i.e., nearly 1 Gbps, in a correlated antenna configuration scenario when the maximum Doppler frequency is 10 Hz and the propagation channel model with the root mean squared delay spread is 0.3 μsec. The results also show that, high throughput performance such as greater than 750 Mbps for 4-by-2 MU-MIMO with two data streams per MS is acheived even in a non-correlated antenna configuration scenario although the environment is limited to low mobility and a small delay spread.

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LTE-Advanced下行链路基于evd CSI反馈的载波聚合和多用户MIMO实验评估

本文介绍了在LTE-Advanced下行链路中使用两个移动站(MSs)进行4 × 2多用户(MU)-MIMO多路复用的实验室实验结果，并结合使用5分量载波(cc)的载波聚合(CA)。将基于特征值分解(EVD)的扩展信道状态信息(CSI)反馈功能实现到基于LTE-Advanced无线电接口的实时实验设备中，以支持基于最小均方误差(MMSE)的预编码MU-MIMO操作。基于不同的天线配置，在多径衰落环境下进行了实验。实验结果表明，在最大多普勒频率为10 Hz、时延均方根传播信道模型为0.3 μsec的相关天线配置场景下，每MS 2个数据流的4 × 2 MU-MIMO实现了大于950 Mbps的峰值吞吐量，接近1 Gbps。结果还表明，即使在非相关天线配置场景中，尽管环境仅限于低移动性和小延迟扩展，但仍可实现高吞吐量性能，例如每MS有两个数据流的4 × 2 MU-MIMO也可实现大于750 Mbps的吞吐量。

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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2011 8th International Symposium on Wireless Communication Systems

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