Logarithmic step-size based digital backward propagation in N-channel 112Gbit/s/ch DP-QPSK transmission

机译：N通道112Gbit / s / ch DP-QPSK传输中基于对数步长的数字后向传播

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We propose and numerically investigate logarithmic step-size distribution for implementing efficient digital backward propagation (DBP) algorithm using split-step Fourier method (SSFM). DBP is implemented in N-channel 112Gbit/s/ch dual-polarization quadrature-phase-shift-keying (DP-QPSK) transmission over 2000km standard single mode fiber (SMF) with no in-line optical dispersion compensation. This algorithm is compared with constant step-size modified DBP (M-SSFM) algorithm in terms of efficiency, complexity and computational time. Furthermore, we investigate the same-capacity and same-bandwidth-efficiency transmission systems with 28GBaud and 56GBaud per-channel rates. The logarithmic step-size based DBP algorithm depicts efficient mitigation of chromatic dispersion (CD) and non-linear (NL) impairments. Benefit of the logarithmic step-size is the reduced complexity and computational time for higher baud rates.

机译：我们提出并数值研究对数步长分布，以实现采用分步傅里叶方法（SSFM）的有效数字后向传播（DBP）算法。 DBP是在2000公里标准单模光纤（SMF）上以N通道112Gbit / s / ch双极化正交相移键控（DP-QPSK）传输实现的，而无需进行在线光学色散补偿。在效率，复杂性和计算时间方面，将该算法与恒定步长修改DBP（M-SSFM）算法进行了比较。此外，我们研究了具有28GBaud和56GBaud每通道速率的相同容量和相同带宽效率的传输系统。基于对数步长的DBP算法描述了色散（CD）和非线性（NL）损伤的有效缓解。对数步长的好处是降低了复杂性并降低了波特率更高的计算时间。

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《2011 13th International Conference on Transparent Optical Networks》|2011年|p.1-4|共4页
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Asif Rameez; Lin Chien-Yu; Holtmannspoetter Michael; Schmauss Bernhard;
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中图分类光纤电缆混合接入网（HFC）;
关键词
Digital backward propagation; coherent receiver; dispersion; non-linear impairments; optical communication; phase modulation;

机译：数字后向传播;相干接收机;色散;非线性损伤;光通信;相位调制;

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专利

1. Efficient compensation of chromatic dispersion and nonlinearities using logarithmic digital backward propagation in N-channel DWDM 1.12Tbit/s DP-QPSK transmission [J] . Asif R., Lin C.-Y., Schmauss B. Journal of Modern Optics . 2012,第1a2期

机译：在N通道DWDM 1.12Tbit / s DP-QPSK传输中使用对数数字后向传播有效补偿色散和非线性
2. Efficient compensation of chromatic dispersion and nonlinearities using logarithmic digital backward propagation in N-channel DWDM 1.12Tbit/s DP-QPSK transmission [J] . Rameez Asifa* Chien-Yu Lina amp, Bernhard Schmaussa Journal of Modern Optics . 2012,第2期

机译：在N通道DWDM 1.12Tbit / s DP-QPSK传输中使用对数数字后向传播有效补偿色散和非线性
3. Impact of channel baud-rate on logarithmic digital backward propagation in DP-QPSK system with uncompensated transmission links [J] . Rameez Asif, Chien-Yu Lin, Bernhard Schmauss Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2011,第24期

机译：信道波特率对无补偿传输链路的DP-QPSK系统中对数数字反向传播的影响
4. Logarithmic step-size based digital backward propagation in N-channel 112Gbit/s/ch DP-QPSK transmission [C] . Asif Rameez, Lin Chien-Yu, Holtmannspoetter Michael, International Conference on Transparent Optical Networks . 2011

机译：基于对数的基于数量的数字向上传播，在N沟道112Gbit / s / Ch DP-QPSK传输中
5. Secure chaotic transmission of digital and analog signals under profiled beam propagation in acousto-optic Bragg cells with feedback. [D] . Almehmadi, Fares S. 2015

机译：在具有反馈的声光布拉格单元中，在异型光束传播下，数字和模拟信号的安全混沌传输。
6. Spectrally Shaped DP-16QAM Super-Channel Transmission with Multi-Channel Digital Back-Propagation [O] . Robert Maher, Tianhua Xu, Lidia Galdino, -1

机译：具有多通道数字反向传播的频谱成形DP-16QAM超通道传输
7. Nonlinearity and Phase Noise Mitigation Using Feed-forward Carrier Phase Estimation and Digital Backward Propagation in Coherent QAM Transmission [O] . Pakala Lalitha, Schmauss Bernhard 2014

机译：相干QAM传输中使用前馈载波相位估计和数字后向传播的非线性和相位噪声抑制

Logarithmic step-size based digital backward propagation in N-channel 112Gbit/s/ch DP-QPSK transmission

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