Low-cost, large-coverage, and high-flexibility coherent PON for next-generation access networks: advances, challenges, and prospects [Invited]

Sizhe Xing; Junwen Zhang; Wangwei Shen; An Yan; Guoqiang Li; Aolong Sun; Ji Zhou; Dong Guo; Jianyang Shi; Ziwei Li; Chao Shen; Nan Chi

doi:10.3788/COL202422.040604

Low-cost, large-coverage, and high-flexibility coherent PON for next-generation access networks: advances, challenges, and prospects [Invited]

Sizhe Xing, Junwen Zhang^*, Wangwei Shen, An Yan, Guoqiang Li, Aolong Sun, Ji Zhou, Dong Guo, Jianyang Shi, Ziwei Li, Chao Shen, Nan Chi

^*Corresponding author for this work

School of Information and Electronics

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

4 Citations (Scopus)

Abstract

Increasing bandwidth requirements have posed significant challenges for traditional access networks. It is difficult for intensity modulation/direct detection to meet the power budget and flexibility requirements of the next-generation passive optical network (PON) at 100G and beyond considering the new requirements. This is driving researchers to develop novel optical access technologies. Low-cost, wide-coverage, and high-flexibility coherent PON is emerging as a strong contender in the competition. In this article, we will review technologies that reduce the complexity of coherent PON (CPON), enabling it to meet the commercial requirements. Also, advanced algorithms and architectures that can enhance system coverage and flexibility are also discussed.

Original language	English
Article number	040604
Journal	Chinese Optics Letters
Volume	22
Issue number	4
DOIs	https://doi.org/10.3788/COL202422.040604
Publication status	Published - 10 Apr 2024

Keywords

access network
coherent optics
flexible data rate
low complexity
wide dynamic range

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10.3788/COL202422.040604

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abstract = "Increasing bandwidth requirements have posed significant challenges for traditional access networks. It is difficult for intensity modulation/direct detection to meet the power budget and flexibility requirements of the next-generation passive optical network (PON) at 100G and beyond considering the new requirements. This is driving researchers to develop novel optical access technologies. Low-cost, wide-coverage, and high-flexibility coherent PON is emerging as a strong contender in the competition. In this article, we will review technologies that reduce the complexity of coherent PON (CPON), enabling it to meet the commercial requirements. Also, advanced algorithms and architectures that can enhance system coverage and flexibility are also discussed.",

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T1 - Low-cost, large-coverage, and high-flexibility coherent PON for next-generation access networks

T2 - advances, challenges, and prospects [Invited]

AU - Xing, Sizhe

AU - Zhang, Junwen

AU - Shen, Wangwei

AU - Yan, An

AU - Li, Guoqiang

AU - Sun, Aolong

AU - Zhou, Ji

AU - Guo, Dong

AU - Shi, Jianyang

AU - Li, Ziwei

AU - Shen, Chao

AU - Chi, Nan

PY - 2024/4/10

Y1 - 2024/4/10

N2 - Increasing bandwidth requirements have posed significant challenges for traditional access networks. It is difficult for intensity modulation/direct detection to meet the power budget and flexibility requirements of the next-generation passive optical network (PON) at 100G and beyond considering the new requirements. This is driving researchers to develop novel optical access technologies. Low-cost, wide-coverage, and high-flexibility coherent PON is emerging as a strong contender in the competition. In this article, we will review technologies that reduce the complexity of coherent PON (CPON), enabling it to meet the commercial requirements. Also, advanced algorithms and architectures that can enhance system coverage and flexibility are also discussed.

AB - Increasing bandwidth requirements have posed significant challenges for traditional access networks. It is difficult for intensity modulation/direct detection to meet the power budget and flexibility requirements of the next-generation passive optical network (PON) at 100G and beyond considering the new requirements. This is driving researchers to develop novel optical access technologies. Low-cost, wide-coverage, and high-flexibility coherent PON is emerging as a strong contender in the competition. In this article, we will review technologies that reduce the complexity of coherent PON (CPON), enabling it to meet the commercial requirements. Also, advanced algorithms and architectures that can enhance system coverage and flexibility are also discussed.

KW - access network

KW - coherent optics

KW - flexible data rate

KW - low complexity

KW - wide dynamic range

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ER -

Low-cost, large-coverage, and high-flexibility coherent PON for next-generation access networks: advances, challenges, and prospects [Invited]

Abstract

Keywords

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