Exploiting the elevation dimension of MIMO system for boosting handset capacity

Reham Almesaeed, A. Ameen, A. Doufexi, A. Nix
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引用次数: 5

Abstract

Recently there has been strong interest in extending the MIMO signal processing from the azimuth dimension to include the elevation plane. Therefore a 3D channel model is required for an accurate evaluation of MIMO performance. The MIMO system can also be deployed at the user terminal according to the LTE-Advanced system specifications. Therefore, this study exploits the elevation dimension at the user equipment (UE) MIMO receiver and proposes an antenna switching strategy to achieve the highest performance among the MIMO spatial streams. This study is considered as one of the solutions toward boosting MIMO capacity and enhancing end user experience for 5G systems. The study considers different types of user handsets such as smartphone and tablet where different scenarios of antennas placements are implemented and different number of antennas elements are deployed. The consideration of the 3D component in the modelling of the MIMO channels results in performance differences in the MIMO system in terms of ergodic capacity and spatial correlation as the handset rotates. The paper suggests the best arrangement of antenna elements for the UE handset manufacturers to achieve the highest channel capacity when exploiting the elevation plane.
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利用MIMO系统的仰角尺寸来提高手机容量
近年来,人们对将MIMO信号处理从方位角扩展到仰角面有了浓厚的兴趣。因此,需要一个3D通道模型来准确评估MIMO性能。MIMO系统也可以根据LTE-Advanced系统规范部署在用户终端。因此,本研究利用用户设备(UE) MIMO接收机的仰角尺寸,提出一种天线切换策略,以在MIMO空间流中实现最高性能。该研究被认为是提高MIMO容量和增强5G系统最终用户体验的解决方案之一。该研究考虑了不同类型的用户手持设备,如智能手机和平板电脑,其中实现了不同的天线放置场景,并部署了不同数量的天线元件。在MIMO信道建模中考虑三维分量导致MIMO系统在遍历容量和空间相关性方面的性能差异,因为手机旋转。本文提出了在利用仰角平面时,终端手机制造商应采用的最佳天线单元布局,以获得最大的信道容量。
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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