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Enriching Capacity and Transmission of Hybrid WDM-FSO Link for 5G Mobility
by
Shi, Yutao
, Ali, Farman
, Aliqab, Khaled
, Armghan, Ammar
, Alsharari, Meshari
in
5G mobility management
/ Backscattering
/ Capacity
/ Communications systems
/ Computer networks
/ COVID-19
/ Downlinking
/ End users
/ Equipment and supplies
/ Fiber optics
/ Free space optics
/ Lasers
/ merged FSO-WDM supported optical fiber system
/ Mobility
/ Mobility management
/ multi-channel transmissions
/ Optical fibers
/ Optical wireless
/ Optics
/ Pandemics
/ Rayleigh backscattering impairments
/ Reliability analysis
/ Reliability engineering
/ Satellite communications
/ Signal processing
/ Simulation
/ Simulation analysis
/ Spectrum allocation
/ Structural reliability
/ Telecommunication systems
/ Uplinking
/ Wave division multiplexing
/ Wavelength division multiplexing
/ Wavelengths
2023
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Enriching Capacity and Transmission of Hybrid WDM-FSO Link for 5G Mobility
by
Shi, Yutao
, Ali, Farman
, Aliqab, Khaled
, Armghan, Ammar
, Alsharari, Meshari
in
5G mobility management
/ Backscattering
/ Capacity
/ Communications systems
/ Computer networks
/ COVID-19
/ Downlinking
/ End users
/ Equipment and supplies
/ Fiber optics
/ Free space optics
/ Lasers
/ merged FSO-WDM supported optical fiber system
/ Mobility
/ Mobility management
/ multi-channel transmissions
/ Optical fibers
/ Optical wireless
/ Optics
/ Pandemics
/ Rayleigh backscattering impairments
/ Reliability analysis
/ Reliability engineering
/ Satellite communications
/ Signal processing
/ Simulation
/ Simulation analysis
/ Spectrum allocation
/ Structural reliability
/ Telecommunication systems
/ Uplinking
/ Wave division multiplexing
/ Wavelength division multiplexing
/ Wavelengths
2023
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Enriching Capacity and Transmission of Hybrid WDM-FSO Link for 5G Mobility
by
Shi, Yutao
, Ali, Farman
, Aliqab, Khaled
, Armghan, Ammar
, Alsharari, Meshari
in
5G mobility management
/ Backscattering
/ Capacity
/ Communications systems
/ Computer networks
/ COVID-19
/ Downlinking
/ End users
/ Equipment and supplies
/ Fiber optics
/ Free space optics
/ Lasers
/ merged FSO-WDM supported optical fiber system
/ Mobility
/ Mobility management
/ multi-channel transmissions
/ Optical fibers
/ Optical wireless
/ Optics
/ Pandemics
/ Rayleigh backscattering impairments
/ Reliability analysis
/ Reliability engineering
/ Satellite communications
/ Signal processing
/ Simulation
/ Simulation analysis
/ Spectrum allocation
/ Structural reliability
/ Telecommunication systems
/ Uplinking
/ Wave division multiplexing
/ Wavelength division multiplexing
/ Wavelengths
2023
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Enriching Capacity and Transmission of Hybrid WDM-FSO Link for 5G Mobility
Journal Article
Enriching Capacity and Transmission of Hybrid WDM-FSO Link for 5G Mobility
2023
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Overview
A dramatic increase in user and capacity demands has been noted after the COVID-19 pandemic. These challenges have damaged the 5G communication system mobility. Therefore, developing mobility and enhancing capacity transmission of 5G advanced services are the focused research gaps in the current era. In this paper, the free space optics (FSO) link is modeled with wavelength division multiplexing (WDM) technology based optical fiber system, purposing to enhance the 5G capabilities in multi-channel, high distance, and bidirectional transmissions. In addition, the presented hybrid FSO-WDM supported optical fiber network is analyzed for 4, 8, and 16 × 10 Gbps downlink and uplink transmission. The paper also includes the mathematical discussion of merged fiber length (SMF = 30 km) and FSO (600 m) with improved mobility management. In another contribution, the tolerance against Rayleigh backscattering (RB) noises is developed through various wavelengths of downlink and uplink channels. Finally, we perform the simulation analysis and reliability of the proposed structure for the 5G advanced communication system.
Publisher
MDPI AG
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