Overview on Technologies for Combating Interference and Noise Management in 5G and Beyond Network

Enoch Adama Jiya, Muhammad B. Muhammad, S. K. Abolaji, Suleiman Turku
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Abstract

The introduction of Fifth Generation (5G) and beyond networks has brought forth a new age of potential and problems in the quickly changing telecom industry. From conventional communication systems to complex radio communication networks, wireless communication has advanced significantly. With substantial advancements over earlier technologies, 5G cellular networks present a novel idea that unifies a wide range of machines and gadgets. 5G technology expands the user experience and improves communication efficiency through previously unknown advancements. Researchers have used cutting-edge technologies to create networks of tiny cells. Future wireless networks will still have significant challenges related to interference management. Heterogeneous Networks (HetNets), Internet of Things (IoT), Device-to-Device (D2D) connectivity, Relay Nodes (RNs), Beamforming, Massive Multiple Input Multiple Output (M-MIMO), millimetre-wave (mm-wave), and other systems are all incorporated into the new network design. The performance and dependability of these sophisticated networks are greatly impacted by noise and interference; thus, controlling these elements effectively is essential. In order to maximize the performance of future wireless communication systems, this study looks at the interference and noise problems that have been seen and researched in a variety of network architectures and methodologies, including 5G and beyond. It emphasizes the significance of strong interference management techniques.
5G 及其他网络中的抗干扰和噪声管理技术概览
第五代(5G)及更先进网络的推出,为瞬息万变的电信行业带来了一个充满潜力和问题的新时代。从传统通信系统到复杂的无线电通信网络,无线通信取得了长足的进步。与先前的技术相比,5G 蜂窝网络有了长足的进步,它提出了一种新的理念,将各种机器和小工具统一起来。5G 技术扩大了用户体验,并通过以前未知的进步提高了通信效率。研究人员利用尖端技术创建了微小单元网络。未来的无线网络仍将面临与干扰管理相关的重大挑战。异构网络 (HetNets)、物联网 (IoT)、设备到设备 (D2D) 连接、中继节点 (RN)、波束成形 (Beamforming)、大规模多输入多输出 (M-MIMO)、毫米波 (mm-wave) 以及其他系统都被纳入了新的网络设计中。这些复杂网络的性能和可靠性受到噪声和干扰的极大影响;因此,有效控制这些因素至关重要。为了最大限度地提高未来无线通信系统的性能,本研究探讨了在各种网络架构和方法(包括 5G 及其他)中出现和研究的干扰和噪声问题。它强调了强大干扰管理技术的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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