基于optisystem的GPON网络q因子和极化性能分析

下一代 Pub Date : 2016-10-01 DOI:10.1109/INCITE.2016.7857605

Sanjeev Verma, Amayika Kakati, Luckysaurabh, Puarush Bhulania

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引用次数: 11

摘要

高速数据速率(HSDR)在当今世界是一个非常迫切的需求，并且随着客户对各种应用的需求不断增加，如直播、网络视频、视频会议等。在本文中，我们的研究是基于如何利用光纤布拉格光栅(FBG)技术设计一个无差错的千兆点对多点通信网络，以减少点对点(P2P)通信和HSDR的码间干扰的影响。在传输段我们使用了光计，这样我们就可以得到光纤通信链路中不同长度的光纤的偏振。当光长(L) =40 km时，得到的最大q因子为7.79338。极化始于185THz，止于200 THz，垂直线极化为(VLP - 1,0,0)，水平线极化为(HLP - 1,0,0)， S1为1dBm, S0为- 6.71496dBm。

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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Performance analysis of Q-factor and polarization for GPON network using optisystem

High speed data rate (HSDR) is a very imperative requirement in today's world and it is increasing according to the customer requirement for various applications such as live broadcasting, video on internet, video conference etc. In this paper, our research is based on how we can design an error free gigabit point to multipoint communication network with the help of fiber Bragg's grating (FBG) technique which reduce the effect of intersymbol interference for point to point (P2P) communication and for the HSDR. At the transmission section we applied an optical meter, Soo we can obtain the polarization for various lengths of the optical fiber in the fiber communication link. For the optical length (L) =40 km the maximum Q-factor obtained is 7.79338 respectively. The polarization starts at 185THz and stops at 200 THz, the vertical linear polarization is (VLP −1, 0, 0) and the horizontal linear polarization is (HLP 1, 0, 0), S1 is 1dBm and S0 is −6.71496dBm respectively.

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下一代

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