摘要
无线射频识别(RFID)技术在智慧物流领域发挥着十分重要的作用,通过无线电信号对目标进行非接触识别和数据读写,为物流和仓储提供实时精确的物品信息。RFID标签与阅读器之间无线电信号的传输依赖于天线这一重要装置。在面向智慧物流的RFID课程教学中,无线电波的抽象性让学生对于射频天线的工作机理和无线电传播机制的理解存在困难。文章探索了在RFID教学中引入虚拟仿真实验,利用电磁仿真软件来分析典型实例,设计出适合课程教学的实践环节,直观清晰地展示了RFID的工作机理,加深了学生对于RFID技术及其在智慧物流中应用的理解,有效提升了教学质量。
Radio frequency identification(RFID) technology plays a very important role in the field of intelligent logistics. It provides real-time and accurate goods information for logistics and warehousing, and the non-contact identification and data reading and writing of targets are realized through radio signals. The transmission of radio signals between RFID tags and readers depends on the antenna, which is an important device. In the teaching of RFID course for intelligent logistics, the abstraction of radio waves makes it difficult for students to understand the working mechanism of RF antenna and radio propagation mechanism.The paper explores the introduction of virtual simulation experiments in RFID teaching, uses electromagnetic simulation software to analyze typical examples, designs practical links suitable for course teaching, intuitively and clearly shows the working mechanism of RFID, deepens students’ understanding of RFID technology and its application in intelligent logistics, and effectively improves the teaching quality.
作者
宛汀
孙晨阳
闫梦阳
WAN Ting;SUN Chenyang;YAN Mengyang(Nanjing University of Posts and Telecommunications,Nanjing 210003,China;State Key Laboratory of Millimeter Waves,Southeast University,Nanjing 210096,China)
出处
《物流科技》
2022年第16期178-180,共3页
Logistics Sci-Tech
基金
南京邮电大学教学改革研究重点项目“无线通信原理课程的创新型思维教学模式探究”(JG00220JX01)
南京邮电大学课程思政教育教学改革专项课题“‘金课’视域下无线通信原理双语课程思政建设研究”(KCSZJG202001)
国家自然科学基金项目“纳米天线的精确高效电磁建模与仿真方法研究”(62071245)
江苏省自然科学基金项目“纳米天线电磁仿真技术中的关键问题研究”(BK20211274)
毫米波国家重点实验室开放课题项目“纳米天线的势积分方程的建模与分析方法”(K202122)。
关键词
无线射频识别
智慧物流
虚拟仿真实验
射频天线
教学改革
radio frequency identification(RFID)
intelligent logistics
virtual simulation experiment
RF antenna
teaching reform
