Designing of reliable and scalable 5th_generation cellular communication system using UAVs

Abstract

The primary issue is expanding the coverage and capacity of future heterogeneous wireless networks to accommodate additional devices. UAVs can help regulate data coordination and coverage in these networks. UAVs can act as an aerial base station for data transmission, allowing users to transfer data more easily with macro base stations. In case of base station failure, these UAVs may share data with other macro base stations. This article presents an MBS-based technique for precise mapping of UAVs in demand-zones to increase network capacity and coverage. To select a UAV controller, use entropy-based networking to negotiate a network. This increases network flow and SINR, reduces network delay and reduces UAV mapping mistakes to demand regions. The suggested technique improves user numbers and UAV altitude. To improve the outcomes, future issues such as energy-efficient UAV deployment and load balancing should be addressed. Prior to 5G deployment, UAV characteristics including speed, altitude and direction may be studied.