A Point-to-multipoint Flexible Transceiver for Inherently Hub-and-Spoke IMDD Optical Access Networks

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A Point-to-multipoint Flexible Transceiver for Inherently Hub-and-Spoke IMDD Optical Access Networks. / Chen, Lin; Jin, Wei; He, Jiaxiang et al.
In: Journal of Lightwave Technology, Vol. 41, No. 14, 15.07.2023, p. 4743-4754.

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Chen L, Jin W, He J, Giddings R, Huang Y, Tang J. A Point-to-multipoint Flexible Transceiver for Inherently Hub-and-Spoke IMDD Optical Access Networks. Journal of Lightwave Technology. 2023 Jul 15;41(14):4743-4754. Epub 2023 Feb 27. doi: 10.1109/JLT.2023.3249406

Author

Chen, Lin ; Jin, Wei ; He, Jiaxiang et al. / A Point-to-multipoint Flexible Transceiver for Inherently Hub-and-Spoke IMDD Optical Access Networks. In: Journal of Lightwave Technology. 2023 ; Vol. 41, No. 14. pp. 4743-4754.

RIS

TY - JOUR

T1 - A Point-to-multipoint Flexible Transceiver for Inherently Hub-and-Spoke IMDD Optical Access Networks

AU - Chen, Lin

AU - Jin, Wei

AU - He, Jiaxiang

AU - Giddings, Roger

AU - Huang, Yi

AU - Tang, Jianming

PY - 2023/7/15

Y1 - 2023/7/15

N2 - Point-to-multipoint (P2MP) transceivers offer apromisingsolution to transform present point-to-point optical access networks into scalable and flexible P2MP networks capable ofdynamically meeting, in a cost-effective and high energy consumption efficiency manner,the requirements associated with 5G-Advance and beyond networks, including largesignal transmission capacity, fast and dense connection, high network flexibility/adaptabilityand low latency. However, the previously reported P2MP optical transceivers based on either coherent XR optics orIMDD digital filter multiplexing (DFM) techniques are not suitable for implementing in low-latency and highly cost-sensitive IMDD-dominated optical access networks.This paper proposes, experimentally demonstrates and optimisesa novel P2MP flexible transceiver incorporating a new cascaded IFFT/FFT-based multi-channel aggregation/de-aggregation technique and an orthogonal digital filtering technique. The performancesof the proposed techniqueare extensively evaluated experimentally in an upstream 55.3Gb/s@25km IMDD PON.Itis shown that in comparison with the conventional DFM transceivers, the proposed transceivers can reduce the transmitter DSP complexity by a factor that approximatesto aggregated channel count,and simultaneouslyoffer additional physical layernetworksecurity,without requiring longdigital filter lengthsand greatly compromising upstream transmission performances/spectral efficienciesas well as differentialONU launch power dynamic ranges

AB - Point-to-multipoint (P2MP) transceivers offer apromisingsolution to transform present point-to-point optical access networks into scalable and flexible P2MP networks capable ofdynamically meeting, in a cost-effective and high energy consumption efficiency manner,the requirements associated with 5G-Advance and beyond networks, including largesignal transmission capacity, fast and dense connection, high network flexibility/adaptabilityand low latency. However, the previously reported P2MP optical transceivers based on either coherent XR optics orIMDD digital filter multiplexing (DFM) techniques are not suitable for implementing in low-latency and highly cost-sensitive IMDD-dominated optical access networks.This paper proposes, experimentally demonstrates and optimisesa novel P2MP flexible transceiver incorporating a new cascaded IFFT/FFT-based multi-channel aggregation/de-aggregation technique and an orthogonal digital filtering technique. The performancesof the proposed techniqueare extensively evaluated experimentally in an upstream 55.3Gb/s@25km IMDD PON.Itis shown that in comparison with the conventional DFM transceivers, the proposed transceivers can reduce the transmitter DSP complexity by a factor that approximatesto aggregated channel count,and simultaneouslyoffer additional physical layernetworksecurity,without requiring longdigital filter lengthsand greatly compromising upstream transmission performances/spectral efficienciesas well as differentialONU launch power dynamic ranges

U2 - 10.1109/JLT.2023.3249406

DO - 10.1109/JLT.2023.3249406

M3 - Article

VL - 41

SP - 4743

EP - 4754

JO - Journal of Lightwave Technology

JF - Journal of Lightwave Technology

SN - 0733-8724

IS - 14

ER -