Future wireless communications must find a way to overcome the challenge of efficient channel management in order to keep up with the growing need for bandwidth and transmission rate needed. Non-orthogonal multiple access is among the effective spectrum sharing techniques used in 5G backhaul wireless mesh networks (NOMA). For 5G backhaul wireless mesh networks, we describe a channel I allocation mechanism in this study. that is based on power demand, employing NOMA to increase channel utility and considering the traffic demands of tiny cells. We employ physical layer transmission in this method. By jointly optimizing the uplink/downlink NOMA channel assignment, the main objective is to promote user equity. There are two steps to the procedure in question. The first channel allocation is first determined using the travelling salesman problem (TSP) because of the double-side many-to-many A random velocity is added to the altered PSO to improve convergence and exploration behavior in order to increase exploration capacity. Simulated results are used to measure the intended scheme's performance while accounting for factors including throughput, signal-to-interference plus noise ratio (SINR), spectral efficiency, sum rate, outage likelihood, and fairness. The suggested plan increases fairness between the individual stations while maximizing network capacity. Experimental findings demonstrate that the suggested technique outperforms current approaches.
Authors: Ranjeet Yadav, Ramakrishnan Raman, Arti Rana, Durgaprasad Gangodkar, Mohit Tiwari, Potaparthini Kiranmayee
DOI: https://doi.org/10.1109/smart55829.2022.10047212
Publish Year: 2022
