Experimental demonstration of low complexity nonlinear compensation algorithm based on logistic regression

Chuxuan Wang; Feng Tian; Qi Zhang; Ran Gao; Yongjun Wang; Qinghua Tian; Xishuo Wang; Xiaolong Pan; Xiangjun Xin

doi:10.1002/mop.33252

Experimental demonstration of low complexity nonlinear compensation algorithm based on logistic regression

Chuxuan Wang, Feng Tian^*, Qi Zhang, Ran Gao, Yongjun Wang, Qinghua Tian, Xishuo Wang, Xiaolong Pan, Xiangjun Xin

^*此作品的通讯作者

信息与电子学院

科研成果: 期刊稿件 › 文章 › 同行评审

1 引用（Scopus）

摘要

In this paper, a novel algorithm based on logistic regression digital backpropagation (LR-DBP) is proposed to mitigate the effect of dispersion and nonlinearity in a long-distance optical transmission system. The LR-DBP can evaluate nonlinear effects by estimating the cross-entropy error and adjusting the structure of DBP. The experiment is setup to demonstrate an 80 Gbit/s 16QAM signal transmitted across 1000 km single-mode fiber. The results show that LR-DBP achieves a 1.8 dB launch power improvement over the dispersion compensation algorithm and a 0.6 dB launch power gain with DBP. The proposed algorithm could obtain with 19.2% computational complexity decrease and 19.6% central processing unit (CPU) running time decrease by calculating the average numbers of real multiplications and CPU running times.

源语言	英语
页（从-至）	1154-1161
页数	8
期刊	Microwave and Optical Technology Letters
卷	64
期	7
DOI	https://doi.org/10.1002/mop.33252
出版状态	已出版 - 7月 2022

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10.1002/mop.33252

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title = "Experimental demonstration of low complexity nonlinear compensation algorithm based on logistic regression",

abstract = "In this paper, a novel algorithm based on logistic regression digital backpropagation (LR-DBP) is proposed to mitigate the effect of dispersion and nonlinearity in a long-distance optical transmission system. The LR-DBP can evaluate nonlinear effects by estimating the cross-entropy error and adjusting the structure of DBP. The experiment is setup to demonstrate an 80 Gbit/s 16QAM signal transmitted across 1000 km single-mode fiber. The results show that LR-DBP achieves a 1.8 dB launch power improvement over the dispersion compensation algorithm and a 0.6 dB launch power gain with DBP. The proposed algorithm could obtain with 19.2% computational complexity decrease and 19.6% central processing unit (CPU) running time decrease by calculating the average numbers of real multiplications and CPU running times.",

keywords = "logistic regression, machine learning, nonlinearity, optical fiber communication",

author = "Chuxuan Wang and Feng Tian and Qi Zhang and Ran Gao and Yongjun Wang and Qinghua Tian and Xishuo Wang and Xiaolong Pan and Xiangjun Xin",

note = "Publisher Copyright: {\textcopyright} 2022 Wiley Periodicals LLC.",

year = "2022",

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doi = "10.1002/mop.33252",

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TY - JOUR

T1 - Experimental demonstration of low complexity nonlinear compensation algorithm based on logistic regression

AU - Wang, Chuxuan

AU - Tian, Feng

AU - Zhang, Qi

AU - Gao, Ran

AU - Wang, Yongjun

AU - Tian, Qinghua

AU - Wang, Xishuo

AU - Pan, Xiaolong

AU - Xin, Xiangjun

PY - 2022/7

Y1 - 2022/7

N2 - In this paper, a novel algorithm based on logistic regression digital backpropagation (LR-DBP) is proposed to mitigate the effect of dispersion and nonlinearity in a long-distance optical transmission system. The LR-DBP can evaluate nonlinear effects by estimating the cross-entropy error and adjusting the structure of DBP. The experiment is setup to demonstrate an 80 Gbit/s 16QAM signal transmitted across 1000 km single-mode fiber. The results show that LR-DBP achieves a 1.8 dB launch power improvement over the dispersion compensation algorithm and a 0.6 dB launch power gain with DBP. The proposed algorithm could obtain with 19.2% computational complexity decrease and 19.6% central processing unit (CPU) running time decrease by calculating the average numbers of real multiplications and CPU running times.

AB - In this paper, a novel algorithm based on logistic regression digital backpropagation (LR-DBP) is proposed to mitigate the effect of dispersion and nonlinearity in a long-distance optical transmission system. The LR-DBP can evaluate nonlinear effects by estimating the cross-entropy error and adjusting the structure of DBP. The experiment is setup to demonstrate an 80 Gbit/s 16QAM signal transmitted across 1000 km single-mode fiber. The results show that LR-DBP achieves a 1.8 dB launch power improvement over the dispersion compensation algorithm and a 0.6 dB launch power gain with DBP. The proposed algorithm could obtain with 19.2% computational complexity decrease and 19.6% central processing unit (CPU) running time decrease by calculating the average numbers of real multiplications and CPU running times.

KW - logistic regression

KW - machine learning

KW - nonlinearity

KW - optical fiber communication

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JO - Microwave and Optical Technology Letters

JF - Microwave and Optical Technology Letters

IS - 7

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Experimental demonstration of low complexity nonlinear compensation algorithm based on logistic regression

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