ELIMINATE THE INTERFERENCE IN 5G ULTRA-WIDE BAND COMMUNICATION ANTENNAS IN CLOUD COMPUTING NETWORKS
G. P. Ramesh, J Logeshwaran, V Aravindarajan, Feny Thachil, SPC Free Zone, Sharjah
Abstract
In this era of technology, every day we see a new change in new development. It is truly astonishing the impressive speed we are seeing, especially in communication technology. This is where 5G comes into play. Transmission stations carry a small amount of transmitted coded signal. Especially when setting up antennas, use them. However, classical versions are based on inductive communication via a measured oscillating circuit. In most cases their small impulses do not allow sufficient contact with antenna elements, for example, with a wire frame. As a result, the indication of the frequency of the element becomes unclear, which leads to significant measurement errors. In this paper, a smart construction of 5G ultra-wide band communication antennas is designed to eliminate the interferences in cloud computing networks. The proposed design simply solved this problem by making a simple special girder to construct its “double square” elements. In a cut-off signal level, the proposed UWBCA design achieved 97.70% of peak data rate, 96.61% of antenna latency, 94.81% of antenna capacity, 96.33% of spectral efficiency and 94.99% of connection density. This proposed design increases its constructive efficiency and contact area from the classic types and prevents interference.