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212 days remaining to submit papers to MIC-Smart 2024 in Irbid, Jordan
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  • EngiTek
  • EngiTek 2020
  • 47.Cnf-1099
EngiTek Congresses with Published Papers
EngiTek 2020, Irbid
Papers Published at EngiTek 2020
All 8 Papers
IDAuthors and TitlePages
51.Cnf-17 Mr. Ameer Mubaslat
Mr. Ahmad Al Haj
Prof. Saud Khashan
Simulation assisted leak detection in pressurized systems using machine learning
51.Cnf-1062 Dr. Aqeed M. Chyad
Dr. Osama Abudayyeh
Dr. Maha Alkasisbeh
A Nonlinear Regression-Based Machine Learning Model for Predicting Concrete Bridge Deck Condition
47.Cnf-1071 Dr. Mohammad M. Banat
Mr. Ahmed Al-Shwmi
Detailed Simplified Implementation of Filter Bank Multicarrier Modulation Using Sub-Channel Prototype Filters
47.Cnf-1097 Dr. Mohammad M. Banat
Mrs. Haifaa Elayyan
Academic Rewards Coin (ARC) Concept: Mining Academic Contribution Into Bitcoin
47.Cnf-1098 Mr. Chris Matrakidis
Dr. Dimitris Uzunidis
Alexandros Stavdas
Prof. Gerasimos Pagiatakis
Analytical modeling of dispersion penalty for NRZ transmission
47.Cnf-1099 Dr. Dimitris Uzunidis
Mr. Chris Matrakidis
Alexandros Stavdas
Prof. Gerasimos Pagiatakis
On the Attainable Transparent Length of Multi-Band Optical Systems Employing Rare – Earth Doped Fiber Amplifiers
47.Cnf-1101 Mr. Georgios D. Kolezas
Dr. Grigorios Zouros
Prof. Gerasimos Pagiatakis
Complex Magnetic and Electric Dipolar Resonances of Subwavelength GaAs Prolate Spheroids
51.Cnf-1104 Dr. Rafat Al-Waked
Underground Car Park - Mechanical Ventilation
47.Cnf-1099 Paper View Page
Title On the Attainable Transparent Length of Multi-Band Optical Systems Employing Rare – Earth Doped Fiber Amplifiers
Authors Dr. Dimitris Uzunidis, University of the Peloponnese, Tripolis, Greece
Mr. Chris Matrakidis, OpenLightComm Ltd, London, UK
Alexandros Stavdas, University of the Peloponnese, Tripolis, Greece
Prof. Gerasimos Pagiatakis, School of Pedagogical and Technological Education, Athens, Greece
Abstract We investigate the linear and nonlinear transmission performance of a multi-band system employing commercially available rare-earth doped fiber optical amplifiers. First, the available spectrum is partitioned into amplification zones with an ideal, flat gain, spectrum that is attainable with existing rare-earth amplifier technology. A universal multi-band physical layer model is then exploited that allows to quantify the impact of amplified spontaneous emission (ASE) noise and four wave mixing (FWM) crosstalk on signal quality. Finally, the maximum transparent length, under these physical layer constraints is estimated for each transmission band.
Track CSA: Communication Systems and Applications
Conference 1st International Conference on Electrical Engineering and Technologies (ElectriTek 2020)
Congress International Congress on Engineering Technologies (EngiTek 2020), 16-18 June 2020, Irbid, Jordan
Pages 33-38
Topics Light Propagation in Optical Fibres
Optical Propagation Effects
ISSN 2227-331X
BibTeX @inproceedings{1099EngiTek2020,
title={On the Attainable Transparent Length of Multi-Band Optical Systems Employing Rare – Earth Doped Fiber Amplifiers},
author={Dimitris Uzunidis, and Chris Matrakidis, and Alexandros Stavdas, and Gerasimos Pagiatakis},
booktitle={International Congress on Engineering Technologies (EngiTek 2020)},
organization={Mosharaka for Research and Studies} }
Paper Views 58 Paper Views Rank 19/524
Paper Downloads 18 Paper Downloads Rank 119/524
EngiTek 2020 Visits: 44160||ElectriTek 2020 Visits: 22765||CSA Track Visits: 4772