Z
Zabih Ghassemlooy
Researcher at Northumbria University
Publications - 883
Citations - 16426
Zabih Ghassemlooy is an academic researcher from Northumbria University. The author has contributed to research in topics: Visible light communication & Bit error rate. The author has an hindex of 50, co-authored 826 publications receiving 13842 citations. Previous affiliations of Zabih Ghassemlooy include Sheffield Hallam University & University of Sheffield.
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Optical Wireless Communications: System and Channel Modelling with MATLAB®
TL;DR: The authors highlight past and current research activities to illustrate optical sources, transmitters, detectors, receivers, and other devices used in optical wireless communications and describe techniques for using theoretical analysis and simulation to mitigate channel impact on system performance.
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BPSK Subcarrier Intensity Modulated Free-Space Optical Communications in Atmospheric Turbulence
TL;DR: In this paper, the error performance of the FSO using a subcarrier intensity modulation (SIM) based on a binary phase shift keying (BPSK) scheme in a clear but turbulent atmosphere is presented.
Journal ArticleDOI
Emerging Optical Wireless Communications-Advances and Challenges
TL;DR: This paper is an overview of the OWC systems focusing on visible light communications, free space optics, transcutaneous O WC, underwater OWC, and optical scattering communications.
Proceedings ArticleDOI
Optical Wireless Communications: An Emerging Technology
TL;DR: This paper provides an overview of OWC highlighting the advantages and wide range of application areas of this emerging technology and its potential for high-impact results.
Proceedings ArticleDOI
A MIMO-ANN system for increasing data rates in organic visible light communications systems
Paul Anthony Haigh,Zabih Ghassemlooy,Ioannis Papakonstantinou,Francesco Tedde,Sandro Francesco Tedde,Oliver Hayden,Sujan Rajbhandari +6 more
TL;DR: In order to speed up date rates further, an artificial neural network (ANN) is implemented to classify the signal and correct the error induced by the matrix inversion at the receiver, allowing a gross bit rate of 1.8 Mb/s in the best case.