Abstract
The antenna application for internet of things (IoT) in urban infrastructure is introduced. Here, an effective design of microstrip 3D antenna for a RFID system in IOT which can also be used in narrow-band wireless communication is proposed. The antenna is combination of meander line techniques implemented with 3D structure resulted to miniature size of antenna that will be useful in many application. The critical parameters analysis and simulation results demonstrate the validity of the antenna with high gain and impedance matching are discussed as well.
Highlights
The Internet of Things (IoT) is an environment that has capability to transfer data over a network without needing human-to-human or human-to-computer interaction
An effective design of microstrip 3D antenna for a RFID system in IOT which can be used in narrow-band wireless communication is proposed
The antenna is combination of meander line techniques implemented with 3D structure resulted to miniature size of antenna that will be useful in many application
Summary
The Internet of Things (IoT) is an environment that has capability to transfer data over a network without needing human-to-human or human-to-computer interaction. Small antenna will be easier to apply in any application of the latest technologies which is demanded by other sector and attraction from antenna designer. The tag antenna is requested to directly match to IC chip. This is to say, the input impedance of tag antenna can be adjusted flexibly to realize impedance matching. To solve this problem, meander line technique is applied in our work. Simulations indicate that the value of input impedance of tag antenna can be changed readily by tuning the high line. All manuscripts must be in English, the table and Fig. texts, otherwise we cannot publish your paper
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