Study of Ф-OTDR stability for dynamic strain measurement in piezoelectric vibration

Meiqi Ren; Ping Lu; Liang Chen; Xiaoyi Bao

doi:10.1007/s13320-016-0334-8

Photonic Sensors ›› 2015, Vol. 6 ›› Issue (3) : 199 -208. DOI: 10.1007/s13320-016-0334-8

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Study of Ф-OTDR stability for dynamic strain measurement in piezoelectric vibration

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Abstract

In a phase-sensitive optical-time domain reflectometry (Φ-OTDR) system, the challenge for dynamic strain measurement lies in large intensity fluctuations from trace to trace. The intensity fluctuation caused by stochastic characteristics of Rayleigh backscattering sets detection limit for the minimum strength of vibration measurement and causes the large measurement uncertainty. Thus, a trace-to-trace correlation coefficient is introduced to quantify intensity fluctuation of Φ-OTDR traces and stability of the sensor system theoretically and experimentally. A novel approach of measuring dynamic strain induced by various driving voltages of lead zirconate titanate (PZT) in Φ-OTDR is also demonstrated. Piezoelectric vibration signals are evaluated through analyzing peak values of fast Fourier transform spectra at the fundamental frequency and high-order harmonics based on Bessel functions. High trace-to-trace correlation coefficients varying from 0.824 to 0.967 among 100 measurements are obtained in experimental results, showing the good stability of our sensor system, as well as small uncertainty of measured peak values.

Keywords

Optical fiber sensors / phase-sensitive optical time domain reflectometry (OTDR) / vibration

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Meiqi Ren, Ping Lu, Liang Chen, Xiaoyi Bao. Study of Ф-OTDR stability for dynamic strain measurement in piezoelectric vibration. Photonic Sensors, 2015, 6(3): 199-208 DOI:10.1007/s13320-016-0334-8

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References

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[1]	Bao X., Chen L.. Recent progress in Brillouin scattering based fiber sensors. Sensors, 2011, 11(4): 4152-4187.

[2]	Soto M. A., Bolognini G., Pasquale F. D.. Enhanced simultaneous distributed strain and temperature fiber sensor employing spontaneous Brillouin scattering and optical pulse coding. IEEE Photonics Technology Letter, 2009, 21(7): 450-452.

[3]	Soller B., Gifford D., Wolfe M., Foggatt M.. High resolution optical frequency domain reflectometry for characterization of components and assemblies. Optics Express, 2005, 13(2): 666-674.

[4]	Zhou D., Qin Z., Li W., Chen L., Bao X.. Distributed vibration sensing with time-resolved optical frequency-domain reflectometry. Optics Express, 2012, 20(12): 13138-13145.

[5]	Cui Q., Pamukcu S., Xiao W., Pervizpour M.. Truly distributed fiber vibration sensor using pulse base BOTDA with wide dynamic range. IEEE Photonics Technology Letter, 2011, 23(24): 1887-1889.

[6]	Juarez J. C., Maier E. W., Choi K. N., Taylor H. F.. Distributed fiber-optic intrusion sensor system. Journal of Lightwave Technology, 2005, 23(6): 2081-2087.

[7]	Juarez J. C., Taylor H. F.. Field test of a distributed fiber-optic intrusion sensor system for long perimeters. Applied Optics, 2007, 46(11): 1968-1971.

[8]	Peng F., Wu H., Jia X., Rao Y., Wang Z., Peng Z.. Ultra-long high-sensitivity F-OTDR for high spatial resolution intrusion detection of pipelines. Optics Express, 2014, 22(11): 13804-13810.

[9]	Lu Y., Zhu T., Chen L., Bao X.. Distributed vibration sensor based on coherent detection of phase-OTDR. Journal of Lightwave Technology, 2010, 28(22): 3243-3249.

[10]	Qin Z., Chen L., Bao X.. Wavelet denoising method for improving detection performance of distributed vibration sensor. IEEE Photonics Technology Letter, 2012, 24(7): 542-544.

[11]	Zhu T., He Q., Xiao X., Bao X.. Modulated pulses based distributed vibration sensing with high frequency response and spatial resolution. Optics Express, 2013, 21(3): 2953-2963.

[12]	Tu G., Zhang X., Zhang Y., Zhu F., Xia L., Nakarmi B.. The development of F-OTDR system for quantitative vibration measurement. IEEE Photonics Technology Letter, 2015, 27(12): 1349-1352.

[13]	Masoudi A., Belal M., Newson T. P.. A distributed optical fibre dynamic strain sensor based on phase-OTDR. Measurement Science and Technology, 2013, 24(8): 085204.

[14]	Healey P.. Fading in heterodyne OTDR. Electronics Letters, 1984, 20(1): 30-32.

[15]	Izumita H., Furukawa S., Koyamada Y., Sankawa I.. Fading noise reduction in coherent OTDR. IEEE Photonics Technology Letter, 1992, 4(2): 201-203.

[16]	Izumita H., Koyamada Y., Furukawa S., Sankawa I.. Stochastic amplitude fluctuation in coherent OTDR and a new technique for its reduction by stimulating synchronous optical frequency hopping. Journal of Lightwave Technology, 1997, 15(2): 267-278.