SDN-Enabled Multi-Band S-BVT Within Disaggregated Optical Networks

Multi-band (MB) technology arises as a suitable solution to increase capacity within future 6G networks, while efficiently utilizing the already deployed optical fiber infrastructure. Indeed, the adoption of MB sliceable bandwidth/bit rate variable transceivers (S-BVTs) based on multi carrier modula...

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Bibliographic Details
Published inJournal of lightwave technology Vol. 40; no. 11; pp. 3479 - 3485
Main Authors Nadal, Laia, Moreolo, Michela Svaluto, Fabrega, Josep M., Vilchez, F. Javier
Format Journal Article
LanguageEnglish
Published New York IEEE 01.06.2022
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Bandwidth
C band
Multi-band transmission
network disaggrega- tion
OFDM
Optical communication
Optical fiber amplifiers
Optical fiber networks
Optical fibers
sliceable bandwidth/bit rate variable transceiver (S-BVT)
software defined networking (SDN)
Software-defined networking
Transceivers
Wavelength division multiplexing
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Summary:Multi-band (MB) technology arises as a suitable solution to increase capacity within future 6G networks, while efficiently utilizing the already deployed optical fiber infrastructure. Indeed, the adoption of MB sliceable bandwidth/bit rate variable transceivers (S-BVTs) based on multi carrier modulation (MCM) enables transmission within multiple bands beyond C-band, providing sustainable capacity growth and hyper-scalability. Different slices/bands can be suitably activated in a pay-as-you grow approach according to the network demand and requirements. Additionally, the proposed MB S-BVT architecture also enables disaggregation and programmability by the adoption of an open software-defined networking (SDN) paradigm. A proof of concept of the proposed MB S-BVT is numerically and experimentally evaluated. Specifically, the transmission of 25 GHz signals/slices working at C-, L- and S-band is considered without any filtering and amplification stages. About 70 Gb/s capacity per slice/band is achieved in B2B configuration. The data rate decreases after 50.47 km, enabling maximum capacities per slice of 26.2 Gb/s (C-band) and 21 Gb/s (L- and S-bands). Additionally, the proposed MB S-BVT can be envisioned to serve different classes of services/applications over different network segments, prepared to support MB technology, thanks to the exploitation of differently performing slices/bands.
ISSN:0733-8724
1558-2213
DOI:10.1109/JLT.2022.3158388