Structural Deformation of Fiber Optic Hydrophone Probe Based on Optical Frequency Domain Reflectometry

Yu Wang; Di Xiao; Yangyang Niu; Jie Yang; Pengxi Yang; Zhaohao Zhu; Guolu Yin; Tao Zhu

doi:10.3788/AOS221551

[1] Meng Z, Chen W, Wang J F et al. Research progress of fiber optic hydrophone technology[J]. Laser & Optoelectronics Progress, 58, 1306009(2021).

[2] Kirkendall C K, Dandridge A. Overview of high performance fibre-optic sensing[J]. Journal of Physics D, 37, R197-R216(2004).

[3] Cranch G A, Flockhart G M H, Kirkendall C K. Efficient fiber Bragg grating and fiber Fabry-Pérot sensor multiplexing scheme using a broadband pulsed mode-locked laser[J]. Journal of Lightwave Technology, 23, 3798-3807(2005).

[4] Yi L Y, Shen Y Q, Xu H X et al. Review of optic fiber hydrophones structure designing[J]. Mobile Communications, 43, 51-59(2019).

[5] Ni M, Hu Y M, Meng Z et al. Study on fiber optic hydrophone unit[J]. Applied Acoustics, 22, 1-7(2003).

[6] Wang J, Chen K, Tang J et al. Development of deep-sea detector of the mandrel interferometric optical fiber hydrophone[J]. Optical Fiber & Electric Cable and Their Applications, 14-16, 27(2019).

[7] Luo H, Xiong S D, Hu Y M et al. A fiber optic hydrophone to be used in towed line array[J]. Applied Acoustics, 25, 65-68(2006).

[8] Li M, Sun Z H, Zhang X L et al. Development of high sensitivity eight-element multiplexed fiber laser acoustic pressure hydrophone array and interrogation system[J]. Photonic Sensors, 7, 253-260(2017).

[9] Zhang F X, Jiang S D, Zhang X L et al. Ultra-thin fiber laser hydrophone with static pressure equalization and improved response[J]. IEEE Photonics Technology Letters, 31, 1968-1970(2019).

[10] Gao K, Guo Z, Zhang W H et al. Novel fiber hydrophone sound-sensitive structure and realization method thereof[P].

[11] Yin G L, Jiang R, Xu Z et al. Fast and high spatial resolution distributed optical fiber sensing technology and its application in mechanical deformation and temperature monitoring[J]. Journal of Mechanical Engineering, 58, 96-104(2022).

[12] Khan F, Denasi A, Barrera D et al. Multi-core optical fibers with Bragg gratings as shape sensor for flexible medical instruments[J]. IEEE Sensors Journal, 19, 5878-5884(2019).

[13] Roesthuis R J, Janssen S, Misra S. On using an array of fiber Bragg grating sensors for closed-loop control of flexible minimally invasive surgical instruments[C], 2545-2551(2013).

[14] Pak C G. Wing shape sensing from measured strain[J]. AIAA Journal, 54, 1064-1073(2016).

[15] Sun G K, Li H, Dong M L et al. Optical fiber shape sensing of polyimide skin for a flexible morphing wing[J]. Applied Optics, 56, 9325-9332(2017).

[16] Nicolas M J, Sullivan R W, Richards W L. Large scale applications using FBG sensors: determination of in-flight loads and shape of a composite aircraft wing[J]. Aerospace, 3, 18(2016).

[17] Qiu T G, Sun Y Y, Lu T M et al. Research on monitoring of horizontal displacement field of deep soil based on OFDR technology[J]. Piezoelectrics & Acoustooptics, 42, 108-112(2020).

[18] Davis M A, Kersey A D, Sirkis J et al. Shape and vibration mode sensing using a fiber optic Bragg grating array[J]. Smart Materials and Structures, 5, 759-765(1996).

[19] Zhang L W, Qian J W, Shen L Y et al. FBG sensor devices for spatial shape detection of intelligent colonoscope[C], 834-840(2004).

[20] Duncan R G, Raum M T. Characterization of a fiber-optic shape and position sensor[J]. Proceedings of SPIE, 6167, 616704(2006).

[21] Roesthuis R J, Kemp M, van den Dobbelsteen J J et al. Three-dimensional needle shape reconstruction using an array of fiber Bragg grating sensors[J]. ASME Transactions on Mechatronics, 19, 1115-1126(2014).

[22] Zhang J K, Sun G K, Li H et al. Optical fiber shape sensing of polyimide skin for flexible morphing wing[J]. Chinese Journal of Scientific Instrument, 39, 66-72(2018).

[23] Duncan R G, Froggatt M E, Kreger S T et al. High-accuracy fiber-optic shape sensing[J]. Proceedings of SPIE, 6530, 65301S(2007).

[24] Eickhoff W, Ulrich R. Optical frequency domain reflectometry in single-mode fiber[J]. Applied Physics Letters, 39, 693-695(1981).

[25] Parent F, Gérard M, Monet F et al. Intra-arterial image guidance with optical frequency domain reflectometry shape sensing[J]. IEEE Transactions on Medical Imaging, 38, 482-492(2019).

[26] Shao C, Yin G L, Lü L et al. OFDR with local spectrum matching method for optical fiber shape sensing[J]. Applied Physics Express, 12, 082010(2019).

[27] Yin G L, Xu Z, Jiang R et al. Optical fiber distributed three-dimensional shape sensing technology based on optical frequency-domain reflectometer[J]. Acta Optica Sinica, 42, 0106002(2022).