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Fast Incoherent OFDR Interrogation of FBG Arrays Using Sparse Radio Frequency Responses
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Title: Fast Incoherent OFDR Interrogation of FBG Arrays Using Sparse Radio Frequency Responses |
Authors: Clement Bellido, Juan Hervás Peralta, Javier Madrigal Madrigal, Javier Maestre, Haroldo Torregrosa-Penalva, Germán Fernandez-Pousa, Carlos Sales Maicas, Salvador |
Editor: Institute of Electrical and Electronics Engineers / Optica Publishing Group |
Department: Departamentos de la UMH::Ingeniería de Comunicaciones |
Issue Date: 2018-03-22 |
URI: https://hdl.handle.net/11000/30656 |
Abstract:
We present two implementations of fast, discrete incoherent
optical frequency-domain reflectometers (I-OFDR) for the
interrogation of equally spaced fiber Bragg grating (FBG) arrays,
based on the determination of the array’s radio frequency (RF)
response at a sparse number of frequencies. FBG reflectivities are
determined by use of the inverse discrete Fourier transform (IDFT)
of the sparse RF response, in a dynamic range limited by crosstalk
induced by FBG positioning errors. The first implementation employs
the complete, vector RF response at a number of frequencies
equal to the number N of FBGs in the array. In the second, the
introduction of a reference reflector allows for an interrogation
using the power (phaseless) RF response in 4N − 1 frequencies.
Demodulation based on IDFT leads to total interrogation times determined
by the network analyzer scan time,which can be as lowas
10 μs per FBG. Depending on the interrogation technique, electrical
bandwidth requirements are 1–2 GHz in our array with 10-cm
separation. We implemented both techniques in a N = 10 array,
inducing decays in reflectivity by 10 dB in one or several FBGs.
Unambiguous detection of FBG decays was obtained in both interrogation
methods. Additional tests performed on the measured
reflectivities also show that measurement linearity is preserved in
the 10-dB decay range. As discrete I-OFDR systems, the proposed
techniques show the possibility to reach compromises between interrogation
time and dynamic range or accuracy in reflectivity
measurements, using the number of interrogation frequencies and
the sensor topology.
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Keywords/Subjects: Fiber Bragg gratings incoherent OFDR microwave photonics optical fiber sensors sensor interrogation |
Knowledge area: CDU: Ciencias aplicadas: Ingeniería. Tecnología |
Type of document: application/pdf |
Access rights: info:eu-repo/semantics/closedAccess Attribution-NonCommercial-NoDerivatives 4.0 Internacional |
DOI: https://doi.org/10.1109/JLT.2018.2821199 |
Appears in Collections: Artículos Ingeniería Comunicaciones
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