Experimental Demonstration of Superimposed Probabilistic 16CAP With the Joint Chaotic Model in a Multi-Core Transmission System

Yu Gu; Feng Tian; Tianze Wu; Jue Wang; Qi Zhang; Qinghua Tian; Yongjun Wang; Rahat Ullah; Xiangjun Xin

doi:10.1109/JPHOT.2022.3174221

Experimental Demonstration of Superimposed Probabilistic 16CAP With the Joint Chaotic Model in a Multi-Core Transmission System

Yu Gu, Feng Tian^*, Tianze Wu, Jue Wang, Qi Zhang, Qinghua Tian, Yongjun Wang, Rahat Ullah, Xiangjun Xin

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

In this paper, we propose a novel carrier-less amplitude/phase modulation with probabilistic shaping based on the Lorenz model and superposition method (LS-PS-CAP). The chaotic model is used to change the probability distribution of the constellation, and superimpose the constellations to obtain LS-PS-16CAP. The proposed scheme can increase modulation flexibility and improve BER performance, and it can also provide security for the transmission system. The transmission of 189.6 Gb/s LS-PS-16CAP data signal over a 2.5 km multi-core fiber (MCF) is experimentally demonstrated. Moreover, the LS-PS-16CAP obtains an average gain of 0.7 dB with the entropy of 3.7bits/symbol compared to the Maxwell-Boltzmann (MB)-PS-16CAP in MCF. The findings suggest that the proposed scheme has a promising future for short-range optical transmission system.

Original language	English
Article number	7230806
Journal	IEEE Photonics Journal
Volume	14
Issue number	3
DOIs	https://doi.org/10.1109/JPHOT.2022.3174221
Publication status	Published - 1 Jun 2022
Externally published	Yes

Keywords

3D constellation
and probabilistic shaping
carrier-less amplitude
chaotic encryption
multi-core fiber
phase modulation

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10.1109/JPHOT.2022.3174221

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title = "Experimental Demonstration of Superimposed Probabilistic 16CAP With the Joint Chaotic Model in a Multi-Core Transmission System",

abstract = "In this paper, we propose a novel carrier-less amplitude/phase modulation with probabilistic shaping based on the Lorenz model and superposition method (LS-PS-CAP). The chaotic model is used to change the probability distribution of the constellation, and superimpose the constellations to obtain LS-PS-16CAP. The proposed scheme can increase modulation flexibility and improve BER performance, and it can also provide security for the transmission system. The transmission of 189.6 Gb/s LS-PS-16CAP data signal over a 2.5 km multi-core fiber (MCF) is experimentally demonstrated. Moreover, the LS-PS-16CAP obtains an average gain of 0.7 dB with the entropy of 3.7bits/symbol compared to the Maxwell-Boltzmann (MB)-PS-16CAP in MCF. The findings suggest that the proposed scheme has a promising future for short-range optical transmission system.",

keywords = "3D constellation, and probabilistic shaping, carrier-less amplitude, chaotic encryption, multi-core fiber, phase modulation",

author = "Yu Gu and Feng Tian and Tianze Wu and Jue Wang and Qi Zhang and Qinghua Tian and Yongjun Wang and Rahat Ullah and Xiangjun Xin",

note = "Publisher Copyright: {\textcopyright} 2009-2012 IEEE.",

year = "2022",

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doi = "10.1109/JPHOT.2022.3174221",

language = "English",

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T1 - Experimental Demonstration of Superimposed Probabilistic 16CAP With the Joint Chaotic Model in a Multi-Core Transmission System

AU - Gu, Yu

AU - Tian, Feng

AU - Wu, Tianze

AU - Wang, Jue

AU - Zhang, Qi

AU - Tian, Qinghua

AU - Wang, Yongjun

AU - Ullah, Rahat

AU - Xin, Xiangjun

PY - 2022/6/1

Y1 - 2022/6/1

N2 - In this paper, we propose a novel carrier-less amplitude/phase modulation with probabilistic shaping based on the Lorenz model and superposition method (LS-PS-CAP). The chaotic model is used to change the probability distribution of the constellation, and superimpose the constellations to obtain LS-PS-16CAP. The proposed scheme can increase modulation flexibility and improve BER performance, and it can also provide security for the transmission system. The transmission of 189.6 Gb/s LS-PS-16CAP data signal over a 2.5 km multi-core fiber (MCF) is experimentally demonstrated. Moreover, the LS-PS-16CAP obtains an average gain of 0.7 dB with the entropy of 3.7bits/symbol compared to the Maxwell-Boltzmann (MB)-PS-16CAP in MCF. The findings suggest that the proposed scheme has a promising future for short-range optical transmission system.

AB - In this paper, we propose a novel carrier-less amplitude/phase modulation with probabilistic shaping based on the Lorenz model and superposition method (LS-PS-CAP). The chaotic model is used to change the probability distribution of the constellation, and superimpose the constellations to obtain LS-PS-16CAP. The proposed scheme can increase modulation flexibility and improve BER performance, and it can also provide security for the transmission system. The transmission of 189.6 Gb/s LS-PS-16CAP data signal over a 2.5 km multi-core fiber (MCF) is experimentally demonstrated. Moreover, the LS-PS-16CAP obtains an average gain of 0.7 dB with the entropy of 3.7bits/symbol compared to the Maxwell-Boltzmann (MB)-PS-16CAP in MCF. The findings suggest that the proposed scheme has a promising future for short-range optical transmission system.

KW - 3D constellation

KW - and probabilistic shaping

KW - carrier-less amplitude

KW - chaotic encryption

KW - multi-core fiber

KW - phase modulation

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DO - 10.1109/JPHOT.2022.3174221

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SN - 1943-0655

VL - 14

JO - IEEE Photonics Journal

JF - IEEE Photonics Journal

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M1 - 7230806

ER -

Experimental Demonstration of Superimposed Probabilistic 16CAP With the Joint Chaotic Model in a Multi-Core Transmission System

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Keywords

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