International Research Journal of Education and Technology

This research project aimed to evaluate the performance of 5G NR-based mmWave MIMO systems in urban microcell environments. This study assessed the feasibility of achieving the required results in terms of system performance, coverage, and capacity. It focuses on analyzing the impact of various factors, such as path loss, interference, and mobility, on the performance of mmWave MIMO systems. To conduct a comprehensive evaluation, a combination of simulations and measurements were performed. Advanced simulation tools, such as MATLAB, will be utilized to model the mmWave MIMO system and the urban microcell characteristics. Realistic scenarios considering factors such as building density, blockage, and reflections were simulated to capture the challenges specific to urban environments. The project aims to optimize system parameters and configurations to enhance the overall performance of mmWave MIMO systems in urban microcells. This includes investigating techniques for interference management, power control, and scheduling algorithms to mitigate the impact of urban microcell characteristics and improve system performance. The results of this project have significant implications for enhancing wireless communication in urban areas. The improved performance of 5G NR-based mmWave MIMO systems can provide faster and more reliable wireless connections, enabling seamless Internet access and supporting emerging technologies, such as autonomous vehicles, augmented reality, and the Internet of Things (IoT).

Keywords:5G NR, mmWave MIMO systems, urban micro-cell environments, system performance, coverage, capacity, path loss, interference, mobility, simulations, MATLAB, building density, blockage, reflections, optimization, interference management, power control, scheduling algorithms, wireless communication, seamless Internet access, autonomous vehicles, augmented reality, Internet of Things (IoT), remote monitoring, smart factories, logistics systems, productivity, cost savings, advancement, practical applications.