Title :
Events in fiber optics given noisy OTDR data. I. GSR/MDL method
Author :
Liu, Fenglei ; Zarowski, Christopher J.
Author_Institution :
Calgary Univ., Alta., Canada
fDate :
2/1/2001 12:00:00 AM
Abstract :
This paper proposes a novel method of detecting and locating connection splice faults (events) in fiber optics by the digital signal processing (DSP) of noisy optical time-domain reflectometry (OTDR) data. This is motivated by the fact that as fiber becomes more widely adopted as a communications medium, methods of automated fault detection/location will become more important. The approach taken is to use Gabor series expansion coefficients to coarsely localize the faults. Due to the presence of measurement noise, these coefficients are random variables, and it is Gabor coefficients with a nonzero mean that determine fault presence and location. Coefficients with nonzero mean are found with the aid of Rissanen´s minimum description length (MDL) criterion for model order estimation. The results show that the method is able to distinguish connection splice events from noise and the Rayleigh component in the OTDR data
Keywords :
optical fibre losses; optical fibre testing; optical loss measurement; optical time-domain reflectometry; series (mathematics); signal sampling; time-frequency analysis; GSR/MDL method; Gabor series expansion coefficients; Gabor series representation; Rayleigh component; automated fault detection; connection splice events; connection splice faults; digital signal processing; fault location; fiber optics; measurement noise; minimum description length; model order estimation; noisy OTDR data; nonzero mean; random variables; time-frequency plane; true sampling rate; Digital signal processing; Event detection; Fault detection; Noise measurement; Optical fiber communication; Optical fibers; Optical noise; Optical signal processing; Reflectometry; Time domain analysis;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
