Backscatter Interrogation Enactment in UHF-RFID for Rayleigh Diminishing Channel

2022 IEEE VLSI Device Circuit and System (VLSI DCS) Pub Date : 2022-02-26 DOI:10.1109/VLSIDCS53788.2022.9811486

Aritra De, Tirthankar Datta

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Abstract

Revolutionary Extraordinary High Frequency Credentials (UHF-RFID) is harnessed in diversified household and engineering usages. The performance of the Revolutionary Extraordinary Radio Frequency Identification is improved when the more than one numbers of aerials are used in tag and reader, more than one numbers of aerial usage are generally known as more than one Feed-in and more than one Response (MIMO). More than one Number of feed-in evolutions the information capacity of the scheme and lessen dwindling. The contemporary of the Revolutionary Extraordinary Radio Frequency Identification is also ameliorated by the disperse technology where the information is mirrored in distinction to tag in the direction of the reader. Now this investigation editorial, dissimilar restrictions such as time contrasted with endured information value, time contrasted with feed-in power contrasted with obtained information value, time contrasted with information to disturbance power(SNR) are checked for rectangular information, sinusoidal information, cosine information and saw tooth information feed in. Network State Data (CSI) is measured next to the tag and the network is deliberated as Rayleigh Diminishing network.

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基于瑞利衰减信道的超高频rfid后向散射讯问实现

革命性的超高频认证(UHF-RFID)在各种家庭和工程用途中得到利用。当标签和读取器中使用多个天线时，革命性非凡射频识别的性能得到改善，多个天线的使用通常称为多个馈入和多个响应(MIMO)。多于一次的反馈进化会使方案的信息容量逐渐减小。当代的革命性非凡射频识别也通过分散技术得到改进，其中信息在区分中反映到阅读器方向的标签上。本文对输入的矩形信息、正弦信息、余弦信息和锯齿信息进行了时间与耐久信息值的对比、输入功率与获取信息值的对比、输入功率与干扰功率(信噪比)的对比等不同限制条件的检验。网络状态数据CSI (Network State Data)在标签旁测量，网络被认为是瑞利递减网络。

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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2022 IEEE VLSI Device Circuit and System (VLSI DCS)

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