Indoor angle of arrival using wide-band frequency diversity with experimental results and EM propagation modeling

M. Curry, Berth Koala, Massimiliano Ciccotosto, Y. Kuga
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引用次数: 3

Abstract

In this work we have investigated the problem of angle of arrival (AOA) estimation in the indoor environment. Coherent, multi-path signals must be resolved. The approach is based upon measurement of the AOA using a band of frequencies, approximately 10%-20% of center, and utilizes order statistic filtering to estimate the true angle of arrival from the set of individual AOAs. A plane wave model is assumed for the propagating waves and a random arrangement of scatterers between the source and receiver array is assumed. We have constructed a four-element dipole array and associated receiver-acquisition system to test the approach. The results show good AOA estimates can be obtained in a building that would otherwise yield completely inconsistent estimates using narrowband methods. In addition we have simulated EM (electromagnetic) wave propagation characteristics inside buildings using 3-D computer simulation codes based on ray tracing. The model includes the physical and electrical description of the walls and the patterns of the antennas used. The EM modeling is used for evaluating the base level performance of indoor AOA algorithms.
利用宽带频分集的室内到达角与实验结果和电磁传播建模
在本工作中,我们研究了在室内环境下的到达角估计问题。必须对相干的多径信号进行解析。该方法是基于使用约为中心10%-20%的频带测量AOA,并利用阶统计滤波从单个AOA集合中估计真实到达角。假设传播波为平面波模型,并假设源阵列和接收阵列之间的散射体是随机排列的。我们已经构建了一个四元偶极子阵列和相关的接收机采集系统来测试该方法。结果表明,在建筑物中可以获得良好的AOA估计,否则使用窄带方法会产生完全不一致的估计。此外,我们还利用基于光线追踪的三维计算机模拟代码模拟了建筑物内的EM(电磁波)传播特性。该模型包括墙壁的物理和电气描述以及所用天线的模式。利用EM模型对室内AOA算法的基准性能进行了评价。
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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