FSO-5G Networks with Enhanced Throughput, Reliability and Low Latency

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Abstract

Due to the necessity for high-speed and reliable communication, the combination of Free Space Optics (FSO) and 5G wireless networks has received substantial attention in recent years. However, atmospheric turbulence can significantly damage the quality of the FSO link, leading to high error rates and poor reliability. In this paper, a concatenated dynamic coding approach has been proposed and presented to limit the effects of atmospheric turbulence, hence increasing the overall reliability and security of FSO-5G networks. The proposed strategy combines various coding algorithms in FSO-5G networks to improve error correction, minimise latency, and increase throughput. The proposed approach's performance was examined using simulation and compared to other traditional coding systems.
具有增强吞吐量、可靠性和低延迟的FSO-5G网络
由于高速可靠通信的需要,自由空间光学(FSO)与5G无线网络的结合近年来受到了广泛关注。然而,大气湍流会严重破坏FSO链路的质量,导致误差率高,可靠性差。本文提出并提出了一种串联动态编码方法,以限制大气湍流的影响,从而提高FSO-5G网络的整体可靠性和安全性。所提出的策略结合了FSO-5G网络中的各种编码算法,以改进纠错,最小化延迟并提高吞吐量。通过仿真验证了该方法的性能,并与其他传统编码系统进行了比较。
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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