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Comparative analysis and power optimization for return to zero and non return to zero coded transmission in 40 Gbps fiber optics system

机译：40 Gbps光纤系统中归零和不归零编码传输的比较分析和功率优化

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The input launch power of an optical source is a very important factor for communication engineers in designing fiber optics communication systems. By increasing the input launch power, the non linear effects like Four wave mixing (FWM), Cross phase modulation (XPM) and Self phase modulation (SFM) also affect the BER (bit error rate) by decreasing the maximum Q. factor (Quality factor). In this work a comparative analysis for RZ (return to zero) and NRZ (non return to zero) coded transmission has been shown through simulation results for 40 Gbps fiber optic system at fiber lengths (100-300) km using standard single mode fiber (SMF) in Optisystem software. It has been shown that RZ coded modulation can tolerate more distortion and reach longer transmission distance as compared to NRZ coded modulation. Also, Input launch power has been optimized for RZ and NRZ coded transmission in order to achieve more fruitful and reliable transmission.

机译：对于设计光纤通信系统的通信工程师来说，光源的输入发射功率是一个非常重要的因素。通过增加输入发射功率，诸如四波混频（FWM），交叉相位调制（XPM）和自相位调制（SFM）的非线性效应也会通过减小最大Q因子（质量）来影响BER（误码率）。因素）。在这项工作中，通过使用标准单模光纤（100-300）km的40 Gbps光纤系统的仿真结果，显示了对RZ（归零）和NRZ（不归零）编码传输的比较分析。 SMF）在Optisystem软件中。已经表明，与NRZ编码调制相比，RZ编码调制可以容忍更大的失真并达到更长的传输距离。此外，输入发射功率已针对RZ和NRZ编码传输进行了优化，以实现更加有效和可靠的传输。

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《International Congress on Image and Signal Processing》|2014年|1022-1026|共5页
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Asif Muhammad; Ali Hamza; Rehan Afzal H.M.; Siddiqui Tauseef Ahmad;
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Q-factor; error statistics; modulation coding; nonlinear distortion; optical distortion; optical fibre communication; optical modulation; optimisation; telecommunication network reliability; BER; NRZ Coded modulation; Q factor; RZ coded modulation; SMF; bit error rate; fiber optic communication system; nonlinear effect; nonreturn to zero coded transmission; optical source input launch power; optisystem software; power optimization; quality factor; return to zero coded transmission; single mode fiber; Bit error rate; Modulation; Optical fiber communication; Optical fiber dispersion; Optical fibers; Optical signal processing; BER; DCF; Input launch power; NRZ; Power Optimization; Q. factor; RZ; SMF;

机译：Q因子;误差统计;调制编码;非线性失真;光学失真;光纤通信;光学调制;优化;电信网络可靠性; BER; NRZ编码调制; Q因子; RZ编码调制; SMF;误码率;光纤通信系统;非线性效应;不归零编码传输;光源输入发射功率;优化系统软件;功率优化;质量因子;归零编码传输;单模光纤;误码率;调制;光纤通信;光纤色散;光纤;光信号处理; BER; DCF;输入发射功率; NRZ;功率优化; Q。因子; RZ; SMF;

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专利

1. Bit error rate (BER) performance of return-to-zero and non-return-to-zero data signals optical code division multiple access (OCDMA) system based on AND detection scheme in fiber-to-the-home (FTTH) networks [J] . Aldouri MY, Aljunid SA, Ahmad RB, Optica applicata . 2011,第1期

机译：光纤到户（FTTH）网络中基于AND检测方案的归零和不归零数据信号光码分多址（OCDMA）系统的误码率（BER）性能
2. Influence of the Extinction Ratio on the Intrachannel Nonlinear Distortion of 40-Gb/s Return-to-Zero Transmission Systems Over Standard Fiber [J] . Fonseca D., Cartaxo A. V. T., Monteiro P. P. Journal of Lightwave Technology . 2007,第6期

机译：消光比对标准光纤上40 Gb / s归零传输系统通道内非线性失真的影响
3. Analysis of Dispersion-Managed Optical Fiber Transmission System Using Non-Return-to-Zero Pulse Format and Performance Restriction from Third-Order Dispersion [J] . Xiaomin WANG IEICE Transactions on Communications . 1999,第8期

机译：不归零脉冲格式和三阶色散限制性能的色散管理光纤传输系统分析
4. Comparative analysis and power optimization for return to zero and non return to zero coded transmission in 40 Gbps fiber optics system [C] . Asif Muhammad, Ali Hamza, Rehan Afzal H.M., International Congress on Image and Signal Processing . 2014

机译：返回零和非返回零返回到40 Gbps光纤系统的比较分析和功率优化
5. Comparison of the chirped return-to-zero and dispersion managed soliton modulation formats in wavelength division multiplexed systems. [D] . Mu, Ruomei. 2001

机译：波分复用系统中in归零和色散管理的孤子调制格式的比较。
6. Artificial Neural Network to Modeling Zero-inflated Count Data: Application to Predicting Number of Return to Blood Donation [O] . Shima Haghani, Morteza Sedehi, Soleiman Kheiri 2017

机译：人工神经网络在零充气计数数据建模中的应用：在预测回血次数中的应用
7. Improvement of Received Optical Power Sensitivity in Asymmetric 2.5Gbps/1.2Gbps Passive Optical Network with Inverse Return to Zero(RZ) coded Downstream and NRZ upstream re-modulation [O] . Sang-Jo Park 2010

机译：通过反向返回到零（RZ）的不对称2.5Gbps / 1.2Gbps无源光网络中接受光功率灵敏度的改进，编码下游和NRZ上游重新调制
8. Sign Polar Return-to-Zero Telemetry and Coding Logic [R] . Assard, G. L. 1981

机译：签署polar归零遥测和编码逻辑

Comparative analysis and power optimization for return to zero and non return to zero coded transmission in 40 Gbps fiber optics system

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