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Update on Friday, 23 June 2023: Paper 16.Cnf-118 reaches 1270 views and 323 downloads.
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  • GC-ElecEng 2020
  • 29.Cnf-1150
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Congresses with Published Papers
Papers Published at GC-ElecEng 2020
All 9 Papers
IDAuthors and TitlePages
29.Cnf-105 Dr. Alex Vukovic
Ms. Ayat Alrjoub
Furthering Innovation in Hyper Communication Era
1-5
29.Cnf-113 Prof. Càndid Reig
Dr. Maria-Dolores Cubells-Beltran
Mr. Javio Sanchis-Muñoz
Prof. Fernando Pardo
Dr. Jose A. Boluda
Dr. Francisco Vegara
Dr. Susana Cardoso
Address Event Representation (AER) approach to resistive sensor arrays
6-9
29.Cnf-220

GS Citations

 Prof. Cebrail Ciflikli
Mr. Kadir Aba
Implementing low cost and secure data transmission layer for image transmission in wireless sensor network
10-14
29.Cnf-221 Mrs. Aicha Mchbal
Dr. Naima Amar Touhami
Dr. El Ftouh Hanae
Dr. Aziz Dkiouak
Four-element UWB MIMO Antenna Design
15-20
29.Cnf-313 Dr. Joan Bas
Dr. Alexis Dowhuszko
Linear Time-Packing Detectors for Optical Feeder Link in High Throughput Satellite Systems
21-26
29.Cnf-1144 Mrs. Fériel Boulfani
Dr. Xavier Gendre
Prof. Anne Ruiz-Gazen
Mrs. Martina Salvignol
Anomaly detection for aircraft electrical generator using machine learning in a functional data framework
27-32
29.Cnf-1145 Mr. Nabil Morri
Dr. Sameh Hadouaj
Mr. Lamjed Ben Said
Towards an Intelligent control system for public transport traffic efficiency KPIs optimization
33-37
29.Cnf-1146 Mr. Ismail Moufid
Prof. Hassane El Markhi
Hassan El Moussaoui
Lamhamdi Tijani
Distribution network reconfiguration for power loss minimization using soft open point
38-42
29.Cnf-1147

GS Citations

 Dr. Shaobo Chen
Dr. Hongwei Liu
UWB slot antenna on shielding can for high accuracy positioning application
43-45
29.Cnf-1150 Paper View Page
Title Analysis on the effects of the human body on the performance of wearable textile antenna in substrate integrated waveguide technology
Authors Dr. Mariam El Gharbi, Université Abdelmalek Essaadi, Tétouan, Morocco
Prof. Saida Ahyoud, Université Abdelmalek Essaadi, Tétouan, Morocco
Prof. Noura Aknin, Université Abdelmalek Essaadi, Tétouan, Morocco
Dr. Ignacio Gil, Universitat Politècnica de Catalunya, Terrassa, Spain
Prof. Raul Fernandez-Garcia, Universitat Politècnica de Catalunya, Barcelona, Spain
Abstract A wearable textile circular ring slot antenna based on a substrate integrated waveguide cavity is presented. In this paper, the focus is on studying and understanding the technical behavior of the SIW textile antenna when located near the human body. Thus, based on the electrical properties of conductive material and the dielectric characteristics of the Felt substrate, a 5.5GHz electro-textile antenna was designed. The proposed antennas are simulated in free space, while the performance of antenna is investigated for on-body condition. The simulated impedance bandwidths of the proposed antenna in free space and on phantom are 120MHz and 110MHz at 5.5GHz respectively. The efficiencies of the antenna at 5.5GHz are 95.8% in free space, and 91.6% on phantom, respectively, meanwhile the gains of that are 8.64dB and 9.35dB, respectively.
Track Electromagnetics: Electromagnetics, Microwaves, Antennas and Propagation
Conference 1st Mosharaka International Conference on Emerging Applications of Electrical Engineering (MIC-ElectricApps 2020)
Congress 2020 Global Congress on Electrical Engineering (GC-ElecEng 2020), 4-6 September 2020, Valencia, Spain
Pages --1
Topics Antennas
Microstrip Antennas
ISSN 2227-331X
DOI
BibTeX @inproceedings{1150ElecEng2020,
title={Analysis on the effects of the human body on the performance of wearable textile antenna in substrate integrated waveguide technology},
author={Mariam El Gharbi, and Saida Ahyoud, and Noura Aknin, and Ignacio Gil, and Raul Fernandez-Garcia},
booktitle={2020 Global Congress on Electrical Engineering (GC-ElecEng 2020)},
year={2020},
pages={--1},
doi={}},
organization={Mosharaka for Research and Studies} }
Paper Views 66 Paper Views Rank 149/524
Paper Downloads 40 Paper Downloads Rank 44/524
GC-ElecEng 2020 Visits: 34474||MIC-ElectricApps 2020 Visits: 24066||Electromagnetics Track Visits: 3658