可见光通信与光纤通信系统的集成

T. V. V. Pavan, R. Jeyachitra
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引用次数: 3

摘要

在本文中,我们提出了一个集成光纤和可见光通信(VLC)系统的单模和多模光纤。在建立光纤- vlc链路之前,我们单独实现光纤链路,并在特定长度的光纤中实现最小误码率。将该光纤长度作为性能最佳的链路。本文采用的主要性能指标是误码率(BER)。在最小误码率点处实现最佳性能。为了获得最佳性能的光纤- vlc链路,分析了色散特性,并采用理想色散补偿光纤布拉格光栅(FBG)对色散进行了补偿。利用灰度编码的输入序列代替直接的二进制序列可以降低误码率,因为相邻的星座点只相差1位。在单模光纤和多模光纤链路中,比较了16 QAM(正交调幅)和64 QAM(正交频分复用)的误码率结果。仿真结果表明,单模光纤- vlc (SMF-VLC)链路的色散补偿优于多模光纤- vlc (MMF-VLC)链路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integration of Visible Light Communication and Fiber Communication System
In this paper, we present an integrated fiber and visible light communication (VLC) system with both single and multimode fibers. Before establishing the fiber–VLC link, we implement a fiber link alone and achieve least BER for a particular length of the fiber. This fiber length is taken as an optimum performing link. The main performance measure utilized in this paper is the Bit Error Rate (BER). Optimum performance is achieved at the point of minimum BER. For an optimum performing fiber–VLC link, the dispersion is analyzed and the compensation of chromatic dispersion is done using ideal dispersion compensation Fiber Bragg Grating (FBG). Utilizing the Gray coded input sequence instead of direct binary sequence reduces the BER, since adjacent constellation points will only differ in one bit. The BER results for 16 QAM (Quadrature Amplitude Modulation) and 64 QAM using Orthogonal Frequency Division Multiplexing (OFDM) are compared for both single mode fiber and multimode fiber links. The simulation results show that for Single Mode Fiber–VLC (SMF–VLC) link the dispersion compensation is better when compared to the Multi Mode Fiber–VLC (MMF–VLC) link.
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