Investigating the Performance of Different Antenna Designs for Wireless Communication Applications

Abstract

In this work, the findings of an in-depth study that compared the effectiveness of a variety of antenna layouts for wireless communication are presented. Antennas, due to the essential position they play in wireless networks, have the potential to have a significant impact on the overall effectiveness, dependability, and quality of communication provided by the system. This study provides an overview of the various techniques that are currently in use to investigate antenna performance. These techniques include simulation and measurement methods. In addition to this, it proposes a methodology for enhancing the analysis of antenna performance by integrating simulation and measurement techniques. When analyzing antenna performance, some of the problems that may appear include interference, limitations on bandwidth, and excessive power usage. Recent innovations in antenna design have included things like metamaterials, machine learning, and additive manufacturing, among other things. In conclusion, the research looks at a wide variety of industries, including telecommunications, aerospace and defense, Internet of Things (IoT), automotive, and medical, all of which find it beneficial to investigate antenna performance. The purpose of this paper is to provide a summary of the present state of research into increasing antenna performance and to discuss the significance of examining the performance of various antenna designs for applications involving wireless communication.