Study On Optical Communications, Volume. 51, Issue 1, 230147-01(2025)
Fiber Nonlinear Impairment Compensation based on Multi-source Domain Transfer Learning
References(19)
[1] Hui R[M]. Introduction to Fiber-optic Communications(2019).
[2] Zhang S, Yaman F, Nakamura K et al. Field and Lab Experimental Demonstration of Nonlinear Impairment Compensation Using Neural Networks[J]. Nature Communications, 10, 3033(2019).
[3] Zhang F, Fang X, Chen X. Neural Network-based Fi-ber Nonlinearity Mitigation in High-speed Coherent Optical Transmission Systems[C], 9748180(2022).
[4] Yadav G S, Chuang C Y, Feng K M et al. Reducing Computation Complexity by Using Elastic Net Regularization based Pruned Volterra Equalization in a 80 Gbit/s PAM-4 Signal for Inter-data Center Interconnects[J]. Optics Express, 28, 38539-38552(2020).
[5] Schädler M, Böcherer G, Pachnicke S. Soft-Demap-ping for Short Reach Optical Communication: a Comparison of Deep Neural Networks and Volterra Series[J]. Journal of Lightwave Technology, 39, 3095-3105(2021).
[6] Ip E, Kahn J M. Compensation of Dispersion and Nonlinear Impairments Using Digital Backpropagation[J]. Journal of Lightwave Technology, 26, 3416-3425(2008).
[7] Gonçalves J, Martins C S, Guiomar F P et al. Nonlinear Compensation with DBP Aided by a Memory Polynomial[J]. Optics Express, 24, 30309-30316(2016).
[8] Meng J Y, Zhang H B, Zhang M et al. Fiber Nonlinear Impairments Compensation based on IPCA-DNN Algorithm[J]. Acta Optica Sinica, 41, 2406002(2021).
[9] Ming H, Chen X, Fang X et al. Ultralow Complexity Long Short-term Memory Network for Fiber Nonlinearity Mitigation in Coherent Optical Communication Systems[J]. Journal of Lightwave Technology, 40, 2427-2434(2022).
[10] Chen Z X, Cai J, Zhang H B et al. Chromatic Dispersion and Fiber Nonlinear Impairment Compensation based on LDBP[J]. Study on Optical Communica-tions, 230047(2024).
[11] Tan C, Sun F, Kong T et al. A Survey on Deep Transfer Learning[C], 270-279(2018).
[12] Zhang J, Xia L, Zhu M et al. Fast Remodeling for Nonlinear Distortion Mitigation based on Transfer Learning[J]. Optics Letters, 44, 4243-4246(2019).
[13] Cheng Y, Zhang W, Fu S et al. Transfer Learning Simplified Multi-task Deep Neural Network for PDM-64QAM Optical Performance Monitoring[J]. Optics Express, 28, 7607-7617(2020).
[14] Xu Z, Sun C, Ji T et al. Feedforward and Recurrent Neural Network-based Transfer Learning for Nonlin-ear Equalization in Short-reach Optical Links[J]. Journal of Lightwave Technology, 39, 475-480(2021).
[15] Zhang W, Jin T, Xu T et al. Nonlinear Mitigation with TL-NN-NLC in Coherent Optical Fiber Communications[C], 9365253(2020).
[16] Freire P J, Abode D, Prilepsky J E et al. Transfer Learning for Neural Networks-based Equalizers in Coherent Optical Systems[J]. Journal of Lightwave Technology, 39, 6733-6745(2021).
[19] Yang Y, Gao F, Zhong Z et al. Deep Transfer Learning-based Downlink Channel Prediction for FDD Massive MIMO Systems[J]. IEEE Transactions on Communications, 68, 7485-7497(2020).
Tools
Get Citation
Copy Citation Text
Zhixuan CHEN, Ju CAI, Hongbo ZHANG, Min ZHANG, Feng WAN, Jie DU, Jiao LIU, Qianwu ZHANG. Fiber Nonlinear Impairment Compensation based on Multi-source Domain Transfer Learning[J]. Study On Optical Communications, 2025, 51(1): 230147-01
Paper Information
Category:
Received: Sep. 19, 2023
Accepted: --
Published Online: Feb. 24, 2025
The Author Email: ZHANG Hongbo (zhanghb@cuit.edu.cn)
© Copyright 2018-2021 | Chinese Laser Press.
All Rights Reserved 沪ICP备15018463号-20