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This book combines semi-physical simulation technology with an Internet of Things (IOT) application system based on novel mathematical methods such as the Fisher matrix, artificial neural networks, thermodynamic analysis, support vector machines, and image processing algorithms. The dynamic testing and semi-physical verification of the theory and application were conducted for typical IOT systems such as RFID systems, Internet of Vehicles systems, and two-dimensional barcode recognition systems. The findings presented are of great scientific significance and have wide application potential for solving bottlenecks in the development of RFID technology and IOT engineering. The book is a valuable resource for postgraduate students in fields such as computer science and technology, control science and engineering, and information science. Moreover, it is a useful reference resource for researchers in IOT and RFID-related industries, logistics practitioners, and system integrators.

Telecommunication. --- Vibration. --- Microwaves. --- Electronics. --- Communications Engineering, Networks. --- Vibration, Dynamical Systems, Control. --- Microwaves, RF and Optical Engineering. --- Electronics and Microelectronics, Instrumentation. --- Electrical engineering --- Physical sciences --- Hertzian waves --- Electric waves --- Electromagnetic waves --- Geomagnetic micropulsations --- Radio waves --- Shortwave radio --- Cycles --- Mechanics --- Sound --- Electric communication --- Mass communication --- Telecom --- Telecommunication industry --- Telecommunications --- Communication --- Information theory --- Telecommuting

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This book combines semi-physical simulation technology with an Internet of Things (IOT) application system based on novel mathematical methods such as the Fisher matrix, artificial neural networks, thermodynamic analysis, support vector machines, and image processing algorithms. The dynamic testing and semi-physical verification of the theory and application were conducted for typical IOT systems such as RFID systems, Internet of Vehicles systems, and two-dimensional barcode recognition systems. The findings presented are of great scientific significance and have wide application potential for solving bottlenecks in the development of RFID technology and IOT engineering. The book is a valuable resource for postgraduate students in fields such as computer science and technology, control science and engineering, and information science. Moreover, it is a useful reference resource for researchers in IOT and RFID-related industries, logistics practitioners, and system integrators.

Classical mechanics. Field theory --- Fluid mechanics --- Mechanical properties of solids --- Spectrometric and optical chemical analysis --- Electronics --- Telecommunication technology --- Engineering sciences. Technology --- Mass communications --- patroonherkenning --- thermodynamica --- RFID (radio frequentiële identificatie) --- IoT (Internet of Things) --- tekstverwerking --- telecommunicatie --- elektronica --- communicatietechnologie --- dynamica --- spectrometrie --- optica

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Classical mechanics. Field theory --- Fluid mechanics --- Mechanical properties of solids --- Spectrometric and optical chemical analysis --- Electronics --- Telecommunication technology --- Engineering sciences. Technology --- Mass communications --- patroonherkenning --- thermodynamica --- RFID (radio frequentiële identificatie) --- IoT (Internet of Things) --- tekstverwerking --- telecommunicatie --- elektronica --- communicatietechnologie --- dynamica --- spectrometrie --- optica