Analysis of 3D printed at 3.5 GHz Vivaldi antenna for 5G applications

Roslan, Nur Aishah Shahirah (2022) Analysis of 3D printed at 3.5 GHz Vivaldi antenna for 5G applications. Project Report. Universiti Teknikal Malaysia Melaka, Melaka, Malaysia. (Submitted)

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Abstract

The evolution of 4G to 5G has raised the bar significantly. Its goal is to create a massive infrastructure that can support the increasing number of connected devices and provide the necessary connectivity. The evolution of 5G networks will have a significant impact on the future development technology. Today, many people are wonder what the barriers to make this future vehicular communication to a reality. Many different developments in vehicular technology, network speed, data throughput and machine learning that will come out together for the fully vehicle future. 5G networks will be able to respond 100 times faster than over current cellular networks. This project aims to design a mid-band antenna that will allow vehicles to connect to 5G networks at the speed of response that is expected from these new networks. As the result, the goal of this project is to design and make an analysis for a Vivaldi Antenna that operates in frequency bands 3.5GHz for 5G application. This project involves design, calculation and simulation an electromagnetic antenna by using the CST MICROWAVE STUDIO software. Lastly, analyse and verify the 5G Vivaldi Antenna will be made.

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