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1 Overview of RFID system anti-collision technology ¡¡¡¡This book is based on the basic principles of physics (including electromagnetics£¬ optics£¬ thermodynamics£¬ etc.)£¬ with engineering mathematical methods as the core of detection and control algorithm design. Furthermore£¬ this book innovatively applies semi-physical verification and detection technology to the dynamic performance testing of radio frequency identification (RFID) systems. This book proposes a series of new theories and methods for physical collision prevention£¬ as well as related test verification methods for building semi-physical hardware platforms based on photoelectric sensing technology£¬ which will provide important theories and technical support for the applications of internet of things (IoT) systems in smart logistics£¬ car networking£¬ food traceability£¬ anti-counterfeiting£¬ and other livelihood fields. The main contributions of this book are as follows: ¡¡¡¡(1) It introduces a new theory of physical anti-collision for improving the integral performance of RFID multi-tag system. ¡¡¡¡(2) It studies the principles and optimization algorithms of innovative multi-tag network topologies£¬ which enhance the sensing capability of the RFID system. ¡¡¡¡(3) It provides valuable guidance for RFID system physical anti-collision based on deep learning. ¡¡¡¡(4) It combines physical and electrical expertise from an interdisciplinary standpoint towards the analysis and design of dynamic performance testing systems. ¡¡¡¡1.1 RFID collision problem and research progress of anti-collision ¡¡¡¡Internet of things (IoT) as a new technology has developed rapidly in recent years£¬ which is an important part of a new generation of information systems. The emergence of IoT is another information technology revolution after computers£¬ the Internet£¬ and mobile communications [1]. As one of the core technologies in the field of perception of IoT£¬ radio frequency identification (RFID) technology is a non-contact automatic identification technology that emerged and developed rapidly in the 1990s. It uses radio waves by induction or electromagnetic wave radiation. The non-contact two-way communication achieves the purpose of automatically identifying target objects£¬ obtaining relevant data£¬ and data exchange. Internationally£¬ RFID systems have been widely used in logistics supply chains£¬ transportation£¬ electronic tickets£¬ production and assembly£¬ anti-counterfeiting and anti-theft£¬ smart agriculture£¬ environmental protection£¬ military defense£¬ and many other fields [2-5]. ¡¡¡¡Major developed countries and regions in the world have successively carried out research on RFID and IoT technology. The National Development and Reform Commission of China included RFID in the first batch of national key industry adjustment and revitalization plans in the electronic information field. In recent years£¬ China has successively carried out the research and development and industrialization of RFID-related technologies£¬ and has initially established a certain foundation in RFID and IoT technology research and development£¬ standard development£¬ industry cultivation£¬ and industry applications. At present£¬ although the annual scale of China¡¯s RFID technology market exceeds RMB 10 billion£¬ it ranks third in the world£¬ after the United Kingdom and the United States. However£¬ compared with existing foreign technologies£¬ China¡¯s RFID technology foundation is relatively weak compared with developed countries. There is still a gap£¬ especially in the research of chips£¬ tags£¬ and sensor networks compared with developed countries. After years of development£¬ the accuracy and performance stability of low-frequency and high-frequency RFID-related products in China have reached the international level£¬ in UHF and microwave frequency bands£¬ many studies are still in the preliminary explorations and laboratory research stages. Moreover£¬ there is a big gap between indicators such as the sensitivity and reliability of the performance and foreign products. The immaturity of these technologies limits the pace of RFID development£¬ and has become a hot spot and difficulty for breakthroughs in the research of RFID technology in the frequency bands above UHF. With the continuous rapid development of China¡¯s economy and the continuous upgrading of the industrial structure£¬ in the large-scale intelligent and information high-tech industry£¬ there are several key technological problems of RFID systems above the UHF frequency band that urgently need to be solved in the field of RFID application promotion. The obvious asymmetry phenomenon of advanced technology and weak basic research has severely restricted the development of RFID and IoT engineering disciplines. ¡¡¡¡Since the data transmission of the RFID system is a weak signal wireless communication£¬ the integrity and accuracy of the data will be interfered by the external environment. The actual communication environment (multipath interf