Machine Learning Estimation of the Phase at the Fading Points of an OFDR-Based Distributed Sensor

被引:4
作者
Aitkulov, Arman [1 ]
Marcon, Leonardo [2 ]
Chiuso, Alessandro [1 ]
Palmieri, Luca [1 ]
Galtarossa, Andrea [1 ]
机构
[1] Univ Padua, Dept Informat Engn, Via G Gradenigo 6-B, I-35131 Padua, Italy
[2] CERN European Org Nucl Res, Esplanade Particules 1, CH-1211 Meyrin, Switzerland
来源
SENSORS | 2023年 / 23卷 / 01期
关键词
DAS; optical fiber; Rayleigh scattering; machine learning; OFDR; OPTICAL-FIBER; PATTERN-RECOGNITION; RESOLUTION; SURFACE; OTDR;
D O I
10.3390/s23010262
中图分类号
O65 [分析化学];
学科分类号
070302 ; 081704 ;
摘要
The paper reports a machine learning approach for estimating the phase in a distributed acoustic sensor implemented using optical frequency domain reflectometry, with enhanced robustness at the fading points. A neural network configuration was trained using a simulated set of optical signals that were modeled after the Rayleigh scattering pattern of a perturbed fiber. Firstly, the performance of the network was verified using another set of numerically generated scattering profiles to compare the achieved accuracy levels with the standard homodyne detection method. Then, the proposed method was tested on real experimental measurements, which indicated a detection improvement of at least 5.1 dB with respect to the standard approach.
引用
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页数:11
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共 41 条
[1]   Real-Time Optical Fiber-Based Distributed Temperature Monitoring of Insulation Oil-Immersed Commercial Distribution Power Transformer [J].
Badar, Mudabbir ;
Lu, Ping ;
Wang, Qirui ;
Boyer, Thomas ;
Chen, Kevin P. ;
Ohodnicki, Paul R. .
IEEE SENSORS JOURNAL, 2021, 21 (03) :3013-3019
[2]   MODIFIED OPTICAL FREQUENCY-DOMAIN REFLECTOMETRY WITH HIGH SPATIAL-RESOLUTION FOR COMPONENTS OF INTEGRATED OPTIC SYSTEMS [J].
BARFUSS, H ;
BRINKMEYER, E .
JOURNAL OF LIGHTWAVE TECHNOLOGY, 1989, 7 (01) :3-10
[3]   Cryogenic-temperature profiling of high-power superconducting lines using local and distributed optical-fiber sensors [J].
Chiuchiolo, Antonella ;
Palmieri, Luca ;
Consales, Marco ;
Giordano, Michele ;
Borriello, Anna ;
Bajas, Hugues ;
Galtarossa, Andrea ;
Bajko, Marta ;
Cusano, Andrea .
OPTICS LETTERS, 2015, 40 (19) :4424-4427
[4]   High Precision Phase-OFDR Scheme Based on Fading Noise Suppression [J].
Feng, Wei ;
Wang, Mengfan ;
Jia, Hailun ;
Xie, Kang ;
Tu, Guojie .
JOURNAL OF LIGHTWAVE TECHNOLOGY, 2022, 40 (03) :900-908
[5]   Multicore Fiber Enabled Fading Suppression in φ-OFDR Based High Resolution Quantitative DVS [J].
Feng, Yuxiang ;
Xie, Weilin ;
Meng, Yinxia ;
Yang, Jiang ;
Yang, Qiang ;
Ren, Yan ;
Bo, Tianwai ;
Tan, Zhongwei ;
Wei, Wei ;
Dong, Yi .
IEEE PHOTONICS TECHNOLOGY LETTERS, 2022, 34 (19) :1026-1029
[6]   Seismic Monitoring With Distributed Acoustic Sensing From the Near-Surface to the Deep Oceans [J].
Fernandez-Ruiz, Maria R. ;
Martins, Hugo F. ;
Williams, Ethan F. ;
Becerril, Carlos ;
Magalhaes, Regina ;
Costa, Luis ;
Martin-Lopez, Sonia ;
Jia, Zhensheng ;
Zhan, Zhongwen ;
Gonzalez-Herraez, Miguel .
JOURNAL OF LIGHTWAVE TECHNOLOGY, 2022, 40 (05) :1453-1463
[7]   Distributed detection of hydrogen and deuterium diffusion into a single-mode optical fiber with chirped-pulse phase-sensitive optical time-domain reflectometry [J].
Garcia-Ruiz, A. ;
Morana, A. ;
Costa, L. ;
Martins, H. F. ;
Martin-Lopez, S. ;
Gonzalez-Herraez, M. ;
Boukenter, A. ;
Ouerdane, Y. ;
Girard, S. .
OPTICS LETTERS, 2019, 44 (21) :5286-5289
[8]   Distributed Pressure Sensing Using an Embedded-Core Capillary Fiber and Optical Frequency Domain Reflectometry [J].
Gerosa, Rodrigo Mendes ;
Osorio, Jonas H. ;
Lopez-Cortes, Daniel ;
Cordeiro, Cristiano M. B. ;
De Matos, Christiano J. S. .
IEEE SENSORS JOURNAL, 2021, 21 (01) :360-365
[9]   On the phase fading effect in the dual-pulse heterodyne demodulated distributed acoustic sensing system [J].
He, Xiangge ;
Xu, Xiaohu ;
Zhang, Min ;
Xie, Shangran ;
Liu, Fei ;
Gu, Lijuan ;
Zhang, Yi ;
Yang, Yuting ;
Lu, Hailong .
OPTICS EXPRESS, 2020, 28 (22) :33433-33447
[10]   A Survey of Defect Detection Applications Based on Generative Adversarial Networks [J].
He, Xiangjie ;
Chang, Zhengwei ;
Zhang, Linghao ;
Xu, Houdong ;
Chen, Hongbo ;
Luo, Zhongqiang .
IEEE ACCESS, 2022, 10 :113493-113512
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