Patent ID: 8854608
Filing Date: 2014-10-07
Classification: G01B,G01D

Abstract:
1. An optical fiber sensing system comprising: a circulator that has first, second, and third ports, the first port being connected to a light source that outputs physical measurement light; an optical fiber that is connected to the second port of the circulator; at least one reflective sensor that is connected to an end of the optical fiber, the reflective sensor returning light with a reflection spectrum obtained by modulating the physical measurement light in accordance with a change in physical quantity of a measurement target object to the optical fiber; an optical coupler that is connected to the third port of the circulator; an optical path that includes a light separating section and a dummy fiber, the light separating section being connected to one of two branch lines bifurcating at the optical coupler, the light separating section separating incoming light into two beams of light whose transmission and reflection levels change complementarily in accordance with a change in the reflection spectrum of the return light from the reflective sensor, the light separating section returning one of the two separated beams of light to the optical coupler, the dummy fiber being connected at one end to the light separating section, the dummy fiber adding a predetermined time difference or optical path difference to the one of the two beams of light separated by the light separating section, the optical path being formed by connecting the other end of the dummy fiber and the other of the two branch lines bifurcating at the optical coupler, the optical path returning the other of the two beams of light separated by the light separating section after incidence through the one of the two branch lines bifurcating at the optical coupler from the optical coupler, the other of the two separated beams of light being returned to the optical coupler via the other of the two branch lines bifurcating at the optical coupler; a light receiving section that receives the two beams of light separated by the light separating section with the time difference therebetween from the optical coupler and further receives another beam of light having propagated through the optical path from the optical coupler; and a section that calculates amount of the physical change of the measurement target object for detection on the basis of an intensity ratio of the three beams of light received by the light receiving section, wherein the light separating section includes one wavelength tilt filter and another circulator, and the section that calculates the amount of the physical change for detection includes a PN code generator that generates a pseudo random signal, a section that modulates the physical measurement light on the basis of the pseudo random signal generated by the PN code generator, a section that converts the three beams of light received by the light receiving section into electric signals; and a section that correlates the electric signals obtained by the conversion with the pseudo random signal sent from the PN code generator to calculate the intensity of the one of the two beams of light and the intensity of the other.