Multipath fading measurements for multi-antenna backscatter RFID at 5.8 GHz

2009 IEEE International Conference on RFID Pub Date : 2009-04-27 DOI:10.1109/RFID.2009.4911197

J. Griffin, G. Durgin

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引用次数: 49

Abstract

UHF and microwave backscatter RF-tag systems, including radio frequency identification (RFID) and sensor systems, experience multipath fading that can be more severe than that found in a conventional transmitter-to-receiver channel. Previous work has shown that multipath fading can be reduced on the modulated-backscatter signal received from the RF tag in a non-line-of-sight (NLOS) channel if more than one RF-tag antenna is used to modulate backscatter. This paper presents the first multipath fading measurements for backscatter tags using multiple antennas at 5.79 GHz - the center of the 5.725–5.850 GHz, unlicensed industrial, scientific, and medical (ISM) frequency band that may offer reliable operation for future, miniature RF tags. NLOS measurement results are presented as cumulative density functions (CDF) and fade margins for use in backscatter radio link budget analysis and a detailed description of the custom backscatter testbed used to take the measurements is provided. The measurements show that gains are available for multiple-antenna RF tags and results match well with gains predicted using the analytic fading distributions derived previously.

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5.8 GHz多天线后向散射RFID的多径衰落测量

超高频和微波反向散射射频标签系统，包括射频识别(RFID)和传感器系统，会经历比传统的发射机到接收机信道更严重的多径衰落。先前的研究表明，在非视距(NLOS)信道中，如果使用多个射频标签天线来调制后向散射，则可以减少从射频标签接收的调制后向散射信号的多径衰落。本文介绍了使用5.79 GHz (5.725-5.850 GHz，未经许可的工业，科学和医疗(ISM)频段的中心)的多个天线的反向散射标签的第一个多径衰落测量，该频段可能为未来的微型射频标签提供可靠的操作。NLOS测量结果以累积密度函数(CDF)和衰减余量的形式呈现，用于反向散射无线电链路预算分析，并提供了用于测量的自定义反向散射试验台的详细描述。测量结果表明，增益可用于多天线射频标签，并且结果与使用先前导出的分析衰落分布预测的增益匹配良好。

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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2009 IEEE International Conference on RFID

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