Title :
Detection of transverse load using the high birefringence bragg grating and genetic algorithm
Author :
Etezad, M. ; Kahrizi, M. ; Khorasani, K.
Author_Institution :
Dept. of Electr. & Comput. Eng., Concordia Univ., Montréal, QC, Canada
Abstract :
A novel methodology for detecting the transverse load distribution by fiber Bragg grating sensor (FBG) fabricated into the high birefringence fiber (Hi-Bi FBG sensor) is presented. The transverse force effects on the Hi-Bi FBG sensor area are modeled by evaluating the change of refractive indices along the fiber through the transfer matrix formulation method. Moreover, a genetic algorithm for reconstruction of the non-uniform applied anomaly from the reflected spectrum is developed. The presented method is verified through numerical simulations and the results show that our methodology can effectively represent and model the profile of the applied perturbation profile.
Keywords :
Bragg gratings; birefringence; fibre optic sensors; genetic algorithms; numerical analysis; optical fibre fabrication; optical fibre theory; refractive index; Hi-Bi FBG sensor area; applied perturbation profile; fiber Bragg grating sensor; genetic algorithm; high birefringence fibre Bragg grating; numerical simulations; reflected spectrum; refractive indices; transfer matrix formulation; transverse force effects; transverse load distribution; Adaptation models; Load modeling; Optical fiber sensors; Optical fibers; Simulation; Strain; TV;
Conference_Titel :
IECON 2012 - 38th Annual Conference on IEEE Industrial Electronics Society
Conference_Location :
Montreal, QC
Print_ISBN :
978-1-4673-2419-9
Electronic_ISBN :
1553-572X
DOI :
10.1109/IECON.2012.6388695
