Passive ranging by low-directivity antennas with quality estimate

2015 IEEE MTT-S International Microwave Symposium Pub Date : 2015-05-17 DOI:10.1109/MWSYM.2015.7166879

Yunfei Ma, E. Kan

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引用次数: 11

Abstract

Compared to the high-directivity patch and horn antennas, miniaturized omni-directional antennas allow more flexible integration with portable devices because of their smaller size, lower cost, broader angle coverage and less phase center variation. However, locating passive tags with low-directivity antennas in indoor environment becomes even more challenging due to more multi-paths and weaker line-of-sight (LoS) path. We propose a simple solution by digital beamforming with two arrays of 2-element antennas in a broadband harmonic multi-static backscatter system. Millimeter-precision ranging in weak LoS environment is achieved in a broad and sparse frequency scheme with omni-directional antennas which offer peak and average gain of 0.5dBi and -1.9dBi respectively. Our system employs sensing frequencies that are separated wider than typical indoor coherence bandwidth and therefore, we show that ranging robustness can be further enhanced by estimating angles of arrival (AoA) gap, i.e., unreliable measurements from dominant multi-paths can be distinguished and rejected. We present the fundamental theory, simulation and experiments with a homodyne harmonic RFID reader in a rich scattering environment.

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具有质量估计的低指向性天线无源测距

与高指向性的贴片天线和喇叭天线相比，小型化的全向天线由于尺寸更小、成本更低、角度覆盖范围更广、相位中心变化更小，可以更灵活地与便携式设备集成。然而，在室内环境中，由于多路径和较弱的视距(LoS)路径，低指向性天线的无源标签定位变得更加困难。我们提出了一种简单的解决方案，即在宽带谐波多静态后向散射系统中使用两个2元天线阵列进行数字波束形成。采用宽频稀疏方案，采用峰值增益为0.5dBi，平均增益为-1.9dBi的全向天线，实现了弱LoS环境下的毫米精度测距。我们的系统采用比典型室内相干带宽更宽的传感频率，因此，我们表明，通过估计到达角(AoA)间隙，可以进一步增强测距鲁棒性，即可以区分和拒绝来自主要多路径的不可靠测量。本文介绍了一种高散射环境下的谐波RFID阅读器的基本原理、仿真和实验。

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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2015 IEEE MTT-S International Microwave Symposium

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