BEYOND FIFTH GENERATION (5G) NETWORKS AND BETTER PERFORMANCE EXPECTATIONS FOR CELLULAR WIRELESS NETWORKS
Abd El-Hamid, M., Zaghloul, M., Kolkila, A. (2024). BEYOND FIFTH GENERATION (5G) NETWORKS AND BETTER PERFORMANCE EXPECTATIONS FOR CELLULAR WIRELESS NETWORKS. EKB Journal Management System, 19(72), 150-166. doi: 10.21608/auej.2024.252471.1501
Mohamed Mahmoud Abd El-Hamid; Mohamed Fared Zaghloul; Ahmed Abd El-Aziz Kolkila. "BEYOND FIFTH GENERATION (5G) NETWORKS AND BETTER PERFORMANCE EXPECTATIONS FOR CELLULAR WIRELESS NETWORKS". EKB Journal Management System, 19, 72, 2024, 150-166. doi: 10.21608/auej.2024.252471.1501
Abd El-Hamid, M., Zaghloul, M., Kolkila, A. (2024). 'BEYOND FIFTH GENERATION (5G) NETWORKS AND BETTER PERFORMANCE EXPECTATIONS FOR CELLULAR WIRELESS NETWORKS', EKB Journal Management System, 19(72), pp. 150-166. doi: 10.21608/auej.2024.252471.1501
Abd El-Hamid, M., Zaghloul, M., Kolkila, A. BEYOND FIFTH GENERATION (5G) NETWORKS AND BETTER PERFORMANCE EXPECTATIONS FOR CELLULAR WIRELESS NETWORKS. EKB Journal Management System, 2024; 19(72): 150-166. doi: 10.21608/auej.2024.252471.1501

BEYOND FIFTH GENERATION (5G) NETWORKS AND BETTER PERFORMANCE EXPECTATIONS FOR CELLULAR WIRELESS NETWORKS

Journal of Al-Azhar University Engineering Sector
Volume 19, Issue 72, July 2024, Pages 150-166    PDF (798.03 K)
Document Type: Original Article
DOI: 10.21608/auej.2024.252471.1501
Authors
Mohamed Mahmoud Abd El-Hamid* ; Mohamed Fared Zaghloul; Ahmed Abd El-Aziz Kolkila
Systems and Computers Engineering Dept. , Faculty of Engineering, Al-Azhar University, Cairo, Egypt.
Abstract
Cellular wireless networks have greater speed, capacity and lower latency, as a result after the launch of  networks.  communication technology and femtocell Networks have been introduced into cellular networks to form a three-layer heterogeneous network ( ). We are now working on creating networks that ensure the aggregation femtocell and  networks into heterogeneous networks. It has received significant attention due to the knowledge that it has the potential to increase the capacity of next generation networks as well as improve the spectral performance and energy efficiency of these networks. Utilization of cellular channels and improved network throughput are benefits that come as a result of the connection between the use of . This component is tasked with optimizing the network performance of   , and , while also complying with the constraints imposed by quality of service (QoS) standards. This document presents a comprehensive solution to address the above problem, with a special focus on improving the overall data transfer rate of the cellular network system. The proposed approach includes several algorithms, including joint channel selection, energy regulation, and resource allocation. Together, these measures aim to improve the network's performance and improve its data transfer capabilities. Simulation results show that the proposed algorithm  has the potential to minimize computational complexity while improving system throughput when compared to existing systems.
 
Special Issue of AEIC 2024 (Electrical and System & Computer Engineering  Session)
Keywords
Cellular User Equipment; Device User Equipment; resource allocation; spatial spectrum reuse; Macro Base Station
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