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Digital lightwave receiver employing parallel-DSP-based equalization technique for 100 Gbps 1000-km RZ-DQPSK optical communication system

The 2011 International Conference on Advanced Technologies for Communications (ATC 2011) Pub Date : 2011-09-26 DOI:10.1109/ATC.2011.6027455
A. V. Nguyen, H. P. Nguyen, Nguyen Binh Le, Van Dang
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引用次数: 3

Abstract

We demonstrate by simulation a parallel decision feedback equalization (DFE) technique at multi-GSa/s sampling rate employing recursive least square (RLS) and mean square error (MSE) adaptive algorithms to mitigate the chromatic dispersion (CD) and nonlinear impairments in 100 Gbps 1000 km long-haul optically amplified fiber transmission systems under RZ-DQPSK modulation formats. The digital equalizer is embedded in the coherent lightwave receiver in cascade with the electronic preamplifier and an ADC. RLS algorithm offers a CD tolerance of nearly 300 kms of G652 Standard Single Mode Fiber; while the MSE algorithms can tolerate only about 240 kms. Our simulation for the long haul optical transmission system is developed on the Matlab Simulink platform.
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采用并行dsp均衡技术的数字光波接收机用于100gbps 1000km RZ-DQPSK光通信系统
在RZ-DQPSK调制格式下,采用递推最小二乘(RLS)和均方误差(MSE)自适应算法,采用多gsa /s采样率的并行决策反馈均衡(DFE)技术来缓解100 Gbps 1000 km长距离光放大光纤传输系统中的色散(CD)和非线性损伤。数字均衡器与电子前置放大器和ADC级联嵌入相干光波接收机中。RLS算法提供了近300公里的G652标准单模光纤的CD公差;而MSE算法只能容忍约240公里。本文的远程光传输系统仿真是在Matlab Simulink平台上进行的。
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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The 2011 International Conference on Advanced Technologies for Communications (ATC 2011)
The 2011 International Conference on Advanced Technologies for Communications (ATC 2011)
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