Optical sensing system for determining the position and/or shape of an associated object

摘要

The present invention relates to an optical sensing system (1) for determining the position and/or shape of an associated object (O), the system comprises an optical fibers (10) having one or more optical fiber cores (9) with one or more fiber Bragg gratings (FBG, 8) extending along the full length where the position and/or shape is be to determined of said object (O). A reflectometer (REFL, 12) measures strain at a number of sampling points along the optical fiber cores, and a processor (PROC, 14) determines the position and/or shape based on said measured strains from the plurality of optical fiber cores. The fiber Bragg grating(s) (FBG, 8) extends along the full length of said optical fiber cores (9), the fiber core having a spatially modulated reflection (r) along the said full length of the optical fiber core so that the corresponding reflection spectrum is detectable in said wavelength scan. Thus, the fiber Bragg grating(s) may be effectively continuous along the optical fiber leaving no gaps so that every position gives rise to a detectable reflection, and achieving that the reflection spectrum may encompass a wavelength span equaling the wavelength scan, or ‘sweep’, of an optical source in the reflectometer.

主权项

1. An optical sensing system for determining the position and/or shape of an associated object, the system comprising:
one or more optical fibers for spatial fixation on, in, or to said associated object, each optical fiber having one or more optical fiber cores, a plurality of optical fiber cores having one or more fiber Bragg gratings extending along a full length of said optical fiber cores where the position and/or shape is be to determined of said object, a reflectometer optically connected to said one or more optical fibers, the reflectometer being optical arranged for measuring the strain at a number of sampling points along the plurality of optical fiber cores, and a processor operably connected to the reflectometer for determining the position and/or shape of the object based on said measured strains from the plurality of optical fiber cores, wherein the reflectometer, when working in a frequency domain, is arranged for performing a wavelength scan from a first wavelength to a second wavelength around a central wavelength (λ0) for determining said position and/or shape, the one or more fiber Bragg gratings extending along the full length of said optical fiber cores, each of the one or more optical fiber cores having a spatially modulated reflection along the full length of the optical fiber core so that the corresponding reflection spectrum is detectable in said wavelength scan, wherein at least one optical fiber core has a single fiber Bragg grating extending along the full length where the position and/or shape is to be determined of said object, and the single fiber Bragg grating is chirped in a plurality of regions along the full length so that every sampling point in the optical core has an effective, separate resonance wavelength, each sampling point being detectable in said wavelength scan.