M
Murat Uysal
Researcher at Özyeğin University
Publications - 510
Citations - 17305
Murat Uysal is an academic researcher from Özyeğin University. The author has contributed to research in topics: Fading & Visible light communication. The author has an hindex of 54, co-authored 470 publications receiving 14434 citations. Previous affiliations of Murat Uysal include AT&T & University of Waterloo.
Papers
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Journal ArticleDOI
Mixture-Kernel Based Post-Distortion in RKHS for Time-Varying VLC Channels
TL;DR: A novel RKHS based post-distorter that adaptively learns a sparse Dictionary based on the incoming observations, and monitors validity of the dictionary based on a proposed metric in RK HS is proposed.
Proceedings ArticleDOI
Handover in VLC networks with coordinated multipoint transmission
TL;DR: This work considers a cellular visible light communication (VLC) network where each ceiling luminary serves as an access point (AP) and proposes a joint transmission-handover algorithm to support coordinated multipoint transmission.
Journal ArticleDOI
An Experimental Analysis of Digital Elevation Models Generated with Lidar Data and UAV Photogrammetry
Nizar Polat,Murat Uysal +1 more
TL;DR: In this article, the authors investigated the airborne LiDAR and UAV-based digital elevation model (DEM) comparisons in terms of correlation and vertical accuracy, and performed statistical analyses to calculate the correlations and accuracies of DEMS.
Proceedings ArticleDOI
Underwater Visible Light Communications in Cascaded Gamma-Gamma Turbulence
TL;DR: This paper investigates the performance of vertical underwater visible light communication links in the presence of moderate and strong turbulence conditions using Gamma-Gamma (GG) probability density function and develops a statistical turbulence channel model based on the cascaded structure of fading coefficients.
Proceedings ArticleDOI
Channel Modeling and Performance Characterization of Underwater Visible Light Communications
TL;DR: This paper develops a closed-form path loss expression as a function of transceiver parameters and the water type and utilizes this new expression to determine the maximum achievable link distance for UVLC systems while satisfying a specified bit error rate.