摘要射频识别作为一种新兴的自动识别技术,具有体积小、容量大、寿命长、可重复使用等特点,该技术与互联网、通讯等技术相结合,可实现全球范围内物品的跟踪与信息共享。随着该技术的不断发展,其应用领域正日益扩大,已成为当前的热点研究领域,具有广泛的应用前景。 本文主要介绍了无芯片RFID标签编码的工作原理、技术特点以及发展前景,还有HFSS标签天线的仿真设计。本文是基于螺旋滤波器来基础做的实验研究,仿真方面一共是做了五个实验,为螺旋滤波器选择了一个最适合的材料基底。接下来研究螺旋滤波器内部结构对陷波频率的影响,最后通过所得到的结论来改变频率来提高RFID的识别度。通过对本实验的研究,很有效的降低了RFID标签的成本,更好的去融入到现实应用中,尤其是在推动物联网发展的方面。62129
毕业论文关键字:无芯片RFID,编码,螺旋滤波器,天线,HFSS
Mechanism analysis and Application Research on chipless RFID tag coding
Abstract RFID as a new automatic identification technology, with small size, large capacity, long life, reusable, etc., the technology and the Internet and communication technology, enables tracking and sharing of information on a global scale items. With the continuous development of the technology, its applications are increasingly expanding, has become a hot research field, has broad application prospects. This paper describes the chipless RFID tag encoding works, technical features and development prospects, as well as the tag antenna HFSS simulation design. In this paper, experimental studies done on the basis of helical filters for simulation made a total of five experiments, choose the most suitable material for the substrate spiral filter. Next, the internal structure of spiral filter on the notch frequency, change the frequency by the final conclusion to increase the degree of recognition of RFID. Through the study of this experiment, it is effective to reduce the cost of RFID tags, better go into real-world applications, especially in terms of promoting the development of things.
Keywords: Chipless RFID, coding, helical filters, antenna, HFSS
目录
一.技术背景与发展前景 6
1.1 技术背景 6
1.2.1 物联网综述 7
1.2.2 RFID技术在物联网中的应用 7
1.3.1 RFID的技术介绍 8
1.3.2 RFID技术主要特点 8
1.3.3 RFID技术应用现状及前景 9
1.3.4 RFID面临的挑战 9
1.4无芯片标签概述 10
1.4.1无芯片RFID标签的现状 10
1.4.2无芯片标签的发展前景 10
1.4.3 无芯片RFID工作原理 10
1.5 螺旋滤波器 11
二.HFSS标签天线的设计 12
2.1天线的理论 12
2.1.1天线的主要性能技术 12
2.1.2天线的场区 14
2.2仿真软件简介 14
2.2.1HFSS天线设计流程概述 15
2.3HFSS天线设计详细操作 17
2.3.1求解类型 17
三.无芯片RFID标签的系统设计 HFSS无芯片RFID标签编码的机理分析与应用研究:http://www.751com.cn/zidonghua/lunwen_68220.html