Design of high throughput 2.7 Tbps DWDM System under MIMO-FSO Channel as Back-up Optical Link for 5G Networks

Algerian Journal of Signals and Systems Pub Date : 2021-03-31 DOI:10.51485/AJSS.V6I1.1

H. E. Adardour, S. Kameche, M. Hadjila, S. M. H. Irid, Mohammed Hicham Hachemi, Z. Kourdi

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引用次数: 2

Abstract

The present article aims to investigate and evaluate the performances of DWDM (or Dense Wavelength Division Multiplexed) system under MIMO-FSO (or multiple input multiple output-free space optical) channel. However, the proposed system is configured and simulated in the worst-case meteorological conditions, and we base here on the variation of the attenuation coefficient. In this article, the proposed system is devoted to 90 users, every user exploits 30 Gbps. So, the total capacity of system is 90x30 Gbps. In addition, the use of MIMO technique in FSO channel ensures us the stability of the proposed system in the worst-case meteorological conditions and especially when the system exploits a high throughput. To assess the acceptable performance levels of the proposed system, it is necessary to use the following criteria: the minimum bit error rate (or BER) performance, the maximum quality factor (or Q-Factor) and the optical signal to noise ratio (or OSNR) performance. Finally, the proposed system in this paper provides a promising solution for 5G networks as back-up optical link.

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MIMO-FSO信道下高吞吐量2.7 Tbps DWDM系统作为5G网络备份光链路的设计

本文旨在研究和评估MIMO-FSO(或多输入多输出无空间光)信道下DWDM(或密集波分复用)系统的性能。然而，所提出的系统是在最坏的气象条件下配置和模拟的，我们在这里基于衰减系数的变化。在本文中，建议的系统专用于90个用户，每个用户使用30gbps。因此，系统的总容量为90x30gbps。此外，在FSO信道中使用MIMO技术确保了系统在最恶劣气象条件下的稳定性，特别是当系统利用高吞吐量时。为了评估系统可接受的性能水平，有必要使用以下标准:最小误码率(BER)性能，最大质量因子(Q-Factor)和光信噪比(OSNR)性能。最后，本文提出的系统为5G网络作为备份光链路提供了一种有前景的解决方案。

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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Algerian Journal of Signals and Systems

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