检验无芯片RFID测量不确定度影响的局部灵敏度分析和蒙特卡罗模拟——第一部分:基于错位的不确定度

Katelyn R. Brinker;Reza Zoughi
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引用次数: 2

摘要

测量和响应解码是无芯片射频识别(RFID)领域的一个持续挑战。测量不确定性,包括标签/读取器错位、雷达截面或S参数误差以及杂波,可能会导致响应失真,如幅度变化和谐振频率偏移。这些响应失真可能导致二进制码或感测参数的不正确分配(即,不正确的解码)。本工作旨在使用局部灵敏度分析和蒙特卡罗模拟来充分表征未对准、响应参数测量误差(例如,矢量网络分析仪S参数误差)和杂波对无芯片RFID标签响应的影响。从这种类型的综合表征中,得出了关于标签的识别(ID)和传感能力的结论。在这项工作中,对两个特定标签进行了模拟,然后通过对其中一个标签的测量来证实结果。虽然这项工作是针对近场单站测量设置完成的,但它可以应用于其他标签和测量设置,包括远场场景。因此,提供了一种新颖的综合标签性能评估框架。这项工作分为两部分。在第一部分中,通过模拟和测量深入研究了标签/阅读器错位不确定性的影响。在第二部分中,研究了S参数误差、基于杂波的不确定性以及这些不确定性与失准不确定性的组合的影响。第二部分还提供了一个演示该标签性能评估框架应用的示例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Local Sensitivity Analysis and Monte Carlo Simulation to Examine the Effects of Chipless RFID Measurement Uncertainties—Part I: Misalignment-Based Uncertainty
Measurement and response decoding is an ongoing challenge in the chipless radio-frequency identification (RFID) field. Measurement uncertainties, including tag/reader misalignment, radar cross-section or S-parameter error, and clutter, can cause response distortions, such as magnitude changes and resonant frequency shifts. These response distortions can lead to the improper assignment of a binary code or sensing parameter (i.e., improper decoding). This work aims to use local sensitivity analysis and Monte Carlo simulation to fully characterize the effects of misalignment, response parameter measurement error (e.g., vector network analyzer S-parameter error), and clutter on chipless RFID tag responses. From this type of comprehensive characterization, conclusions are drawn about the identification (ID) and sensing capabilities of the tags. In this work, the simulations are performed for two specific tags and the results are then corroborated with measurements of one of the tags. While the work is done for a near-field monostatic measurement setup, it is presented such that the same procedures can be applied to other tags and measurement setups, including far-field scenarios. Thus, a novel comprehensive tag performance assessment framework is provided. This work is divided into two parts. In Part I, the effects of tag/reader misalignment uncertainty are examined in depth through both simulations and measurements. In Part II, the effects of S-parameter error, clutter-based uncertainty, and the combination of these uncertainties with misalignment uncertainty are investigated. An example demonstrating the application of this tag performance assessment framework is also provided in Part II.
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