波特
非线性系统
波分复用
相移键控
电子工程
算法
光学
数学
物理
计算机科学
误码率
频道(广播)
电信
工程类
传输(电信)
量子力学
波长
作者
Meng Yang,Pinjing He,Aiying Yang,Peng Guo
出处
期刊:IEEE Photonics Journal
[Institute of Electrical and Electronics Engineers]
日期:2022-11-03
卷期号:14 (6): 1-8
被引量:3
标识
DOI:10.1109/jphot.2022.3217341
摘要
The digital back-propagation (DBP) is an effective algorithm to compensate for the nonlinear impairments in high-baud-rate and long-haul optical systems. The nonlinear coefficient of the DBP algorithm is optimized based on the mean power at the step position. However, when the number of steps per span of the DBP algorithm is fixed below the optimum step number to constrain computational complexity, the optimum nonlinear coefficient is sensitive to the number of steps per span. In this paper, we used the average value of the mean power over the step size to optimize the nonlinear coefficient of the DBP algorithm. The modified mean-power-distribution-based nonlinear coefficient optimization scheme was applied to constant step-size DBP (MMPD-CS-DBP) and logarithmic step-size DBP (MMPD-LS-DBP) algorithms in 30 × 80 km SSMF single-channel Nyquist 64 GBaud and 5 × 64 GBaud Nyquist WDM polarization multiplexing 16QAM systems, respectively. Simulation results showed that the optimum nonlinear coefficient of the MMPD-CS-DBP and MMPD-LS-DBP algorithms was the nonlinear coefficient of the optical fiber and was robust to the number of steps per span.
科研通智能强力驱动
Strongly Powered by AbleSci AI