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Performance analysis of GPON network for maximum Q-FACTOR and minimum BER for various fiber length using uniform fiber Bragg's grating

下一代 Pub Date : 2016-10-01 DOI:10.1109/INCITE.2016.7857625
Sanjeev Verma, Amayika Kakati, M. Tripathy, Aran Kumar Singh, Sunil Kumar, H. Rana
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引用次数: 4

Abstract

Today' New generation need a high speed communication so we use numerous type of communication system. Transmission of data are occurred in various way like wired, wireless or in optical fiber. For transmission through optical fiber, various Parameter such as Maximum Q-factor, Minimum BER, Eye height, Threshold are those parameters' which define the efficiency of the network for different type of application like live television broadcast, video on demand, video on internet etc. In this paper, our main focus is that how we can improve Q-Factor and minimize minimum BER by varying kilometer and user defined bit sequence in optical fiber communication system using uniform fiber Bragg grating in “OPTISYSTEM” software. By using user defined bit 1010101010 as input at kilometer 70km we get maximum Q-factor of 13.9572 and minimum BER of 1.21174e-044 as output.
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采用均匀光纤布拉格光栅的GPON网络在不同光纤长度下最大q因子和最小误码率的性能分析
当今的新一代需要高速通信,因此我们使用多种类型的通信系统。数据传输有多种方式,如有线、无线或光纤。对于光纤传输,各种参数,如最大q因子、最小误码率、眼高、阈值等是定义网络效率的参数,适用于电视直播、视频点播、互联网视频等不同类型的应用。本文主要研究了如何在OPTISYSTEM软件中利用均匀光纤布拉格光栅,通过改变千米和用户自定义比特序列来提高光纤通信系统的q因子和最小化最小误码率。通过在70km处使用用户定义的比特1010101010作为输入,我们得到最大q因子13.9572和最小误码率1.21174e-044作为输出。
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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