Development of an antenna design interface for 5G communication systems

In today’s telecommunications technologies, 5G has reached a remarkable position with its high-speed and low-latency advantages. This study focuses on the development of a MATLAB-based toolbox designed to make antenna design for 5G communication systems more efficient and easier. The developed graphical user interface (GUI) allows for the calculation of essential parameters needed in antenna design and facilitates various related analyses. With the help of MATLAB functions, critical parameters such as antenna width, length, and input impedance can be easily calculated. Additionally, the toolbox supports important analyses such as return loss, S11 loss analysis, pattern analysis, and beamwidth analysis. These analyses provide valuable data for meeting the high-performance demands of 5G systems in antenna design. In this thesis, antenna parameters were calculated and analyzed based on the defined design criteria. In this context, the developed toolbox stands out as a tool that accelerates the antenna design process and simplifies the work of engineers and researchers. Furthermore, it is anticipated that this interface will make a significant contribution to maximizing the potential of 5G technologies. In conclusion, this interface offers an effective solution for 5G systems by saving time in antenna design and supporting performance optimization.