Evaluation of three-element MIMO access points based on measurements and ray tracing models

2015 IEEE 26th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC) Pub Date : 2015-12-03 DOI:10.1109/PIMRC.2015.7343335

Yi Yang, E. Mellios, M. Beach, G. Hilton

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引用次数: 2

Abstract

In this paper, the antenna performance for the 5.2 GHz 802.11n network is compared for four different access points with 3 antenna configurations based on the simulated throughput derived from measurements and a ray-tracing model in a two-storey house. The aim here is not only outline a methodology for access point performance that taking account the user equipment orientation, MIMO data streams that can be supported yielding a total throughput metric, but also ascertain the accuracy of the ray tracing model. In order to demonstrate this, two commercial access points are compared with two alternative antenna configurations: an orthogonal array of dipoles and a linear array of vertical dipoles. Radiation patterns, directivity and polarization mix are presented for all access points. Physical layer throughput is computed for all modulation and coding based on the measured spectral responses and simulated channel matrix. Results show the orthogonal dipole array has the best overall performance with the average throughput of 137 Mbps while vertical dipole array works worst with 106 Mbps. The ray tracing model produce results within 8% of differences and more importantly provide the same performance ranking order.

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基于测量和射线追踪模型的三元MIMO接入点评估

本文基于测量得到的模拟吞吐量和两层楼房屋的射线追踪模型，比较了4种不同接入点和3种天线配置下5.2 GHz 802.11n网络的天线性能。这里的目的不仅是概述了考虑到用户设备方向的接入点性能方法，可以支持产生总吞吐量度量的MIMO数据流，而且还确定了光线追踪模型的准确性。为了证明这一点，将两个商用接入点与两种可选的天线配置进行比较:正交偶极子阵列和垂直偶极子线性阵列。给出了所有接入点的辐射方向图、指向性和偏振混合。根据测量的频谱响应和模拟的信道矩阵计算所有调制和编码的物理层吞吐量。结果表明，正交偶极子阵列综合性能最佳，平均吞吐量为137 Mbps，垂直偶极子阵列最差，平均吞吐量为106 Mbps。光线追踪模型产生的结果差异在8%以内，更重要的是提供相同的性能排名顺序。

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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来源期刊

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

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