Simulation design for Ro-FSO communications system by digital modulation schemes

Tahani J. Mohammed, Mazin Ali A. Ali
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Abstract

The Ro-FSO system was designed using Opti System software (version 20), and its efficiency is evaluated in this study using two distinct digital modulators (PSK and DPSK). The proposed system consists of four transmission channels, each with its own wavelength (193.1, 193.2, 193.3, and 193.4 THz). The system was utilized to transmit data at three different rates (10, 20, and 40 Gbit/s) under four different levels of dust attenuation. Because of the large quantity of data retrieved, only results from two specific wavelengths (193.1 and 193.4 THz) were disclosed, as they exhibited the highest Q-factor and lowest bit error rate (BER). The study observed that the (DPSK) modulator surpassed the (PSK) modulator in multiple attenuation scenarios and had superior performance when transmitting data at speeds of 10 and 40 Gb/s. The wavelength of 193.4 THz performed optimally with both modulators in terms of wavelengths.
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利用数字调制方案模拟设计 Ro-FSO 通信系统
本研究使用 Opti System 软件(版本 20)设计了 Ro-FSO 系统,并使用两种不同的数字调制器(PSK 和 DPSK)对其效率进行了评估。拟议的系统由四个传输通道组成,每个通道都有自己的波长(193.1、193.2、193.3 和 193.4 太赫兹)。该系统在四种不同的灰尘衰减水平下以三种不同的速率(10、20 和 40 Gbit/s)传输数据。由于检索到的数据量很大,因此只披露了两个特定波长(193.1 和 193.4 THz)的结果,因为它们表现出最高的 Q 因子和最低的误码率 (BER)。研究发现,在多种衰减情况下,(DPSK)调制器的性能超过了(PSK)调制器,并且在以 10 和 40 Gb/s 的速度传输数据时性能更优。就波长而言,193.4 太赫兹的波长在两种调制器中表现最佳。
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