Designing WDM-RoF Concept-Based Full-Duplex MMW Fiber Fronthaul Microcell Network

In the paper, we propose, highlight, and discuss a new approach to design full-duplex fiber fronthaul microcell network for a next-generation mobile communication system, for example, incoming 5G NR, using wavelength division multiplexed Radio-over-Fiber concept. During the proof-of-concept simulati...

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Main Authors: Mikhail Belkin, Aleksei Alyoshin, Dmitriy Fofanov
Format: Article
Language:English
Published: FRUCT 2020-04-01
Series:Proceedings of the XXth Conference of Open Innovations Association FRUCT
Subjects:
Online Access:https://www.fruct.org/publications/fruct26/files/Bel.pdf
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spelling doaj-4932a75be6f44132ac90363dac310ed22020-11-25T03:28:54ZengFRUCTProceedings of the XXth Conference of Open Innovations Association FRUCT2305-72542343-07372020-04-01261525910.23919/FRUCT48808.2020.9087454Designing WDM-RoF Concept-Based Full-Duplex MMW Fiber Fronthaul Microcell NetworkMikhail Belkin0Aleksei Alyoshin1Dmitriy Fofanov2MIREA - Russian Technological University, RussiaMIREA - Russian Technological University, RussiaMIREA - Russian Technological University, RussiaIn the paper, we propose, highlight, and discuss a new approach to design full-duplex fiber fronthaul microcell network for a next-generation mobile communication system, for example, incoming 5G NR, using wavelength division multiplexed Radio-over-Fiber concept. During the proof-of-concept simulation experiments using well-known computer software VPI Photonics Design Suite, the feasibility and effectiveness of the proposed access network architecture are confirmed, as well as the acceptable limits for high-quality simultaneous transmission of a digital radio-signal package containing a high-speed millimeter-wave information signal with a multi-position QAM and a high-speed centimeter-wave service signal with ASK are quantified.https://www.fruct.org/publications/fruct26/files/Bel.pdffull-duplex 5g nr micro-cell access networkradio-over-fiber conceptwavelength division multiplexingdigital millimeter-wave distribution over a single optical fibercomputer-aided design
collection DOAJ
language English
format Article
sources DOAJ
author Mikhail Belkin
Aleksei Alyoshin
Dmitriy Fofanov
spellingShingle Mikhail Belkin
Aleksei Alyoshin
Dmitriy Fofanov
Designing WDM-RoF Concept-Based Full-Duplex MMW Fiber Fronthaul Microcell Network
Proceedings of the XXth Conference of Open Innovations Association FRUCT
full-duplex 5g nr micro-cell access network
radio-over-fiber concept
wavelength division multiplexing
digital millimeter-wave distribution over a single optical fiber
computer-aided design
author_facet Mikhail Belkin
Aleksei Alyoshin
Dmitriy Fofanov
author_sort Mikhail Belkin
title Designing WDM-RoF Concept-Based Full-Duplex MMW Fiber Fronthaul Microcell Network
title_short Designing WDM-RoF Concept-Based Full-Duplex MMW Fiber Fronthaul Microcell Network
title_full Designing WDM-RoF Concept-Based Full-Duplex MMW Fiber Fronthaul Microcell Network
title_fullStr Designing WDM-RoF Concept-Based Full-Duplex MMW Fiber Fronthaul Microcell Network
title_full_unstemmed Designing WDM-RoF Concept-Based Full-Duplex MMW Fiber Fronthaul Microcell Network
title_sort designing wdm-rof concept-based full-duplex mmw fiber fronthaul microcell network
publisher FRUCT
series Proceedings of the XXth Conference of Open Innovations Association FRUCT
issn 2305-7254
2343-0737
publishDate 2020-04-01
description In the paper, we propose, highlight, and discuss a new approach to design full-duplex fiber fronthaul microcell network for a next-generation mobile communication system, for example, incoming 5G NR, using wavelength division multiplexed Radio-over-Fiber concept. During the proof-of-concept simulation experiments using well-known computer software VPI Photonics Design Suite, the feasibility and effectiveness of the proposed access network architecture are confirmed, as well as the acceptable limits for high-quality simultaneous transmission of a digital radio-signal package containing a high-speed millimeter-wave information signal with a multi-position QAM and a high-speed centimeter-wave service signal with ASK are quantified.
topic full-duplex 5g nr micro-cell access network
radio-over-fiber concept
wavelength division multiplexing
digital millimeter-wave distribution over a single optical fiber
computer-aided design
url https://www.fruct.org/publications/fruct26/files/Bel.pdf
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AT alekseialyoshin designingwdmrofconceptbasedfullduplexmmwfiberfronthaulmicrocellnetwork
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