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基于布里渊散射的光纤温度和应变快速感知 被引量:2

Fast Sensing of Temperature and Strain along Optical Fiber based on Brillouin Scattering
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摘要 为了提高基于抛物线拟合的布里渊频移提取准确性,文章采用Savitzky-Golay滤波对含噪布里渊谱进行滤波得到比较准确的布里渊频移后,从未滤波布里渊谱中选择对称的部分,然后采用抛物线拟合提取布里渊频移。由于文章所提方法能得到对称程度较高的布里渊谱,且计算耗时增加不多,因此改进的抛物线拟合方法可以在保证实时性的基础上显著提高布里渊频移提取的准确性。文章采用了原始抛物线拟合方法、基于伪Voigt模型的拟合方法和改进的抛物线拟合方法来计算光纤沿线的布里渊频移,结果表明,改进的抛物线拟合方法计算时间要长于原始抛物线拟合方法,但仅为基于伪Voigt模型拟合方法的1/37~1/28,且布里渊频移计算准确性与后者相似。基于文章所提算法有望实现光纤沿线温度和应变的快速感知。 To improve the extraction accuracy,the Savitzky-Golay filter is used to filter the noisy Brillouin spectra.Based on the obtained relatively accurate Brillouin frequency shift,the symmetric part of the Brillouin spectrum is selected according to the raw Brillouin spectrum.Based on the selected spectrum,the Brillouin frequency shift is extracted by the parabolic fitting.Since the proposed method can obtain the Brillouin spectrum with a high degree of symmetry and more calculation time,the improved parabolic fitting method can significantly improve the accuracy of the extracted Brillouin frequency shift in real-time demonstration.This paper considers the original parabolic fitting method,the fitting method based on the pseudo-Voigt model and the improved parabolic fitting method to calculate the Brillouin frequency shift along the optical fiber.The results show that the calculation time of the modified parabola fitting method is longer than that of the original parabola fitting method,but only 1/37~1/28 of that of the fitting method based on the pseudo-Voigt model.The accuracy of the Brillouin frequency shift extracted by the former is similar to that of the latter.The proposed method is effective to realize fast sensing of temperature and strain along the optical fiber.
作者 官国飞 宋庆武 陈志明 钟巍峰 李军 GUAN Guo-fei;SONG Qing-wu;CHEN Zhi-ming;ZHONG Wei-feng;LI Jun(Jiangsu Frontier Electric Power Technology Co.,Ltd.,Nanjing 211103,China)
机构地区 江苏方天电力技术有限公司
出处 《光通信研究》 2022年第1期45-51,共7页 Study on Optical Communications
基金 江苏方天电力技术有限公司科技资助项目(KJ201917)。
关键词 分布式光纤传感 布里渊散射 温度和应变 Savitzky-Golay滤波 快速 distributed optical fiber sensing Brillouin scattering temperature and strain Savitzky-Golay filter fast
分类号 TN247 [电子电信—物理电子学]
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  • 1SHIMIZU T, YARI T, NAGAI K, et al. Strain measurement development of aircraft structure health monitoring system [ C ]// 322. using a Brillouin optical time domain reflectometer for Proceeding of SHE. Newport Beach, 2001, 4335: 312-.
  • 2NARUSE H, UEHARA H, DEGUCHI T, et al. Application of a distributed fiber optic strain sensing system to monitoring changes in the state of an underground mine[ J]. Measurement Science and Technology, 2007, 18 (10) : 3202-3210.
  • 3ZOU I,, BAO X, WAN Y, et al. Coherent probe-pump-based Brillouin sensor for centimeter-crack detection [J]. Opt. Lett. , 2005, 30(4): 370-372.
  • 4SONG K Y, HE Z, HOTATE K. Distributed strain measurement with millimeter-order spatial resolution based on Brillouin optical correlation domain analysis[J]. Opt. Lett. , 2006, 31(17) : 2526-2528.
  • 5TKACH R W, CHRAPLYVY A R, DEROSIER M. Spontaneous Brillouin scattering for single-mode optical-fiber characterization[J]. Electronic Letters, 1986, 22(19) : 1011-1013.
  • 6ALAHBAHI M N, CHO Y T, NEWSON T P. Long-range distributed temperature and strain optical fibre sensor based on the coherent detection of spontaneous Brillouin scattering with in-line Raman amplification [J]. Meas. Sci. Technol. , 2006, 17(5) : 1539-1543.
  • 7HORIGUCHI T, KURASHIMA T, TATEDA M. Tensile strain dependence of Brillouin frequency shift in silica optical fibers [J]. IEEE Photonics Technology Letters, 1989, 1 (5) : 107-108.
  • 8SMITH J, BROWN A, DEMERCHANT M, et al. Simuhaneous distributed strain and temperature measurement[J]. Applied Optics, 1999, 38 (25) : 5372-5377.
  • 9阿格拉凡.非线性光纤光学原理及其应用(第三版)[M].贾东方译,北京:电子工业出版社,2002.
  • 10AFSHAR S V, FERRIER G A, BAO X. Impact of EOM extinction ratio on the Brillouin frequency of distributed Brillouinbased fiber-optic sensors [ C] //Proceeding of SPIE. Montreal, 2003, 5260: 519-522.

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