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Damien Kinet
Researcher at University of Mons
Publications - 96
Citations - 1718
Damien Kinet is an academic researcher from University of Mons. The author has contributed to research in topics: Fiber Bragg grating & Optical fiber. The author has an hindex of 16, co-authored 88 publications receiving 1367 citations. Previous affiliations of Damien Kinet include Faculté polytechnique de Mons.
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Fiber Bragg grating sensors toward structural health monitoring in composite materials: challenges and solutions.
TL;DR: The main challenges arising from the use of FBGs in composite materials are reviewed, with a focus on issues related to temperature-strain discrimination, demodulation of the amplitude spectrum during and after the curing process as well as connection between the embedded optical fibers and the surroundings.
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Optical Fiber Sensors Embedded Into Medical Textiles for Healthcare Monitoring
TL;DR: Three sensors embedded into medical textiles for the monitoring of respiratory movements in a magnetic resonance imaging environment can successfully sense textile elongations between 0% and 3%, while maintaining the stretching properties of the textile substrates for a good comfort of the patients.
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Medical Textiles With Embedded Fiber Optic Sensors for Monitoring of Respiratory Movement
J. Witt,F. Narbonneau,Marcus Schukar,Katerina Krebber,J. De jonckheere,M. Jeanne,Damien Kinet,B. Paquet,A. Depre,Lorenzo T. D'Angelo,T. Thiel,Régis Logier +11 more
TL;DR: Three MRI compatible respiration sensors based on pure optical technologies developed within the EU FP6 project OFSETH are described, based on fiber Bragg gratings, optical time-domain reflectometry and macrobending effects.
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Review of Trackside Monitoring Solutions: From Strain Gages to Optical Fibre Sensors.
Georges Kouroussis,Christophe Caucheteur,Damien Kinet,Georgios Alexandrou,Olivier Verlinden,Veronique Moeyaert +5 more
TL;DR: A review of recent research on structural monitoring in railway industry is proposed, with a special focus on stress-based solutions, and the evolution of numerical models that investigate the interaction between railway vehicles and tracks are discussed.
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Femtosecond-laser-induced highly birefringent Bragg gratings in standard optical fiber.
TL;DR: High birefringent fiber Bragg gratings in standard single-mode optical fiber realized with UV femtosecond pulses and line-by-line inscription are reported, which is to the authors' knowledge the highest bireFringence value reported so far.