基于物联网的智能跟踪

2017 International Conference on Communication, Computing and Digital Systems (C-CODE) Pub Date : 2017-03-01 DOI:10.1109/C-CODE.2017.7918899

Ayesha Habib, Hafsa Anam, Warda Anwaar, Hareem Afaq, Y. Amin, H. Tenhunen

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引用次数: 4

摘要

物联网(IoT)作为一种新兴技术已经被引入，作为一种更可靠和更有前途的解决方案，以满足当今的通信需求。射频识别(RFID)是支持物联网的使能技术之一。所提出的标签是基于多谐振器的结构，负载7个三角形级联谐振器。每个三角形都有两个开槽。每个三角形结构的槽位是不同的，因此它们可以产生不同频率的共振。因此，标签能够传输7位数据，因为每个谐振器对应一个位。标签可以生成27=128的二进制组合来标记多个项目/对象。设计并分析了三种不同基板的标签结构，即Taconic TLX-0, RT/duroid 5880和Kapton®HN。基于低成本频率特征的无芯片RFID标签可用于智能跟踪应用。

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Internet-of-things based smart tracking

Internet-of-things (IoT) being an emerging technology has been introduced as a more reliable and promising solution to meet the today's communication requirements. Radio frequency identification (RFID) is among one of the enabling technologies to support IoT. The proposed tag is multi-resonator based structure, loaded with 7-triangular shaped cascaded resonators. Each triangle is loaded with two open slots. The slot positioning for each triangle structure is different so that they can produce resonances at different frequencies. Therefore, the tag is capable of transmitting 7-bit data, as each resonator corresponds to one bit. The tag can generate 27=128 binary combination to tag multiple items/objects. The tag structure is designed and analyzed for three different substrates, i.e., Taconic TLX-0, RT/duroid 5880 and Kapton®HN. The low-cost frequency signature based chipless RFID tag can be used in smart tracking applications.

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2017 International Conference on Communication, Computing and Digital Systems (C-CODE)

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