基于强度型光纤传感器的声波隔体探测关键技术研究

许秉时; 肖文

doi:doi:10.3788/aos20103009.2508

光学学报, 2010, 30 (9): 2508, 网络出版: 2014-05-15

基于强度型光纤传感器的声波隔体探测关键技术研究下载： 1613次

Research of Acoustic Sounding Sensors over Obstructs Based on Reflective Intensity Modulated FiberOptic Sensor

论文大纲

许秉时 ^*肖文

作者单位

北京航空航天大学仪器科学与光电工程学院，北京 100191

探测器强度调制型光纤传感器数学模型声波探测 detectors intensity modulated fiberoptic sensors mathematical model acoustic sounding

摘要

利用反射式强度调制型光纤传感器进行间隔固体介质的声波隔体探测，研制了光纤传感声探测装置，重点从光强调制、振动提取和拾振耦合三个方面研究了在声波隔体探测过程中的振动传递机理，对振动传递过程进行了分析研究，从理论上建立了固体介质、探测拾振装置和光纤敏感单元三者的振动传递数学模型。在此基础上设计实现了光纤声传感系统，并给出了声波隔体探测的实验方法。其结果表明，在5 cm厚木板、5 cm厚水泥预制板、12 cm厚砖墙、10 cm厚水泥预制板的测试条件下，此系统对频率为1 kHz，声级(SPL)为94 dB的标准声信号的探测失真度均小于8%。

Abstract

Reflective intensity modulated fiberoptic sensors (RIMFOS) have received increasing attention in the fields of civil engineering for their superior ability of explosion proof, immunity to electromagnetic and high accuracy, especially fitting for measurement applications in harsh environment. A novel functioning prototype of an integrated sensor based on RIMFOS which is used for acoustic sounding over obstruct is introduced. It aims at the integration of optical fibers based sensors into functional probe for extending the capabilities of the portable solutions for the acoustic detection over solid obstructs. According to the laws of wave propagation, the mechanism of acoustic wave transmission between solid medium and acoustic sounding probe is studied and the calculating formula reflecting the wave transfer process was presented. Some details and overview regarding our ongoing efforts are provided. The experimental results show that the developed sensor′s response distortions towards 1 kHz 94 dB sound pressure level （SPL） signal are all lower than 8% in 4 experimental terms including 5 cm wood board, 5 cm concrete prefabricated board, 12 cm brick well and 10 cm concrete prefabricated board.

参考文献

[1] P. B. Buchade, A. D. Shaligram. Simulation and experimental studies of inclined two fiber displacement sensor［J］. Sensors and Actuators A, 2006, 128(2): 312~316

[2] Jose Brandao Faria. A theoretical analysis of the bifurcated fiber bundle displacement sensor［J］. Trans. Instrum. Mea., 1998, 47(3): 742~747

[3] 方兰兰, 马军山. 一种提高反射式光纤位移传感器灵敏度的方法［J］. 应用激光, 2007, 27(2): 129~131

Fang Lanlan, Ma Junshan. A method for improving the sensitivity of the reflective fiber optic displacement sensor［J］. Applied Laser, 2007, 27(2): 129~131

[4] P. B. Buchade, A. D. Shaligram. Influence of fiber geometry on the performance of twofiber displacement sensor［J］. Sensors and Actuators A, 2007, 136(1): 199~204

[5] 马惠萍，刘丽华，杨乐民等. 平行光束反射光强调制型光纤位移传感器研究［J］. 光学学报, 2003, 23(2): 176~181

Ma Huiping, Liu Lihua, Yang Lemin et al.. Fiber optic displacement sensors based on principle of collimated beam reflective intensity modulation［J］. Acta Optica Sinica, 2003, 23(2): 176~181

[6] Wu Juntao, Deng KungLi. FiberOptic Photoacoustic spectroscopy sensor for harsh environment gas detection［C］. SPIE, 2007, 6698( 66980E): 1~7

[7] 缪长宗, 徐海英, 林长圣等. 光纤声传感器特性的实验研究［J］. 传感技术学报, 2006, 19(3): 818~819

Miao Changzong, Xu Haiying, Lin Changsheng et al.. Experimental research on characteristics of fiberoptic acoustic sensor［J］. Chinese J. Sensors Actuarors, 2006, 19(3): 818~819

[8] Murat Okandan, Neal Hall. Optical microphone structures fabricated for broad bandwidth and low noise［C］. IEEE Sensors 2007 Conference, 2007: 1472~1475

[9] Christine Prelle, Frederic Lamarque, Philippe Revel. Reflective optical sensor for longrange and highresolution displacements［J］. Sensors and Actuators A, 2006, 127(1): 139~146

[10] Weimin Chen, Yuanyuan Xie, Peng Zhang et al.. Localization theory of distributed fiber vibration sensor［J］. Chin. Opt. Lett., 2009, 7(3): 186~187

[11] 贺岩, 尚建华, 刘丹等. 用于水下声光通信的外差式激光多普勒振动计［J］. 中国激光, 2009, 36(1): 189~192

He Yan, Shang Jianhua, Liu Dan et al.. Heterodyne laser Doppler vibrometer for underwater acoustooptic communication［J］. Chinese J. Lasers, 2009, 36(1): 189~192

[12] Graham Wild, Steven Hinckley. Fiber Bragg grating sensors for acoustic emission and transmission detection applied to robotic NDE in structural health monitoring［C］. IEEE Sensors Applications Symposium, 2007, 1424406781/07: 1~6

[13] B. R. Tittmann, R. Lerch, H. Landes et al.. Wave propagation in long compound acoustic transmission line: numerical simulation and measurement［C］. IEEE Uultrasonics Symposium, 1997: 401~404

[14] Sylvain Gauthier, Walid Chamma. Surveillance thrugh concrete walls［C］. SPIE, 2004, 5403: 597~608

[15] Xu Bingshi, Xiao Wen, Yao Dong. A theoretical analysis on parameters of fiber optic displacement sensor［C］. SPIE, 2008, 7129(71290P): 1~4

[16] 布列霍夫斯基赫. 分层介质中的波［M］. 杨训仁译. 北京: 科学出版社, 1960. 303~306

L. M. Brekhovskikh, Wave in MultiLayer Media［M］. Yang Xunren Transl. Beijing: Science Press, 1960. 303~306

许秉时, 肖文. 基于强度型光纤传感器的声波隔体探测关键技术研究[J]. 光学学报, 2010, 30(9): 2508. Xu Bingshi, Xiao Wen. Research of Acoustic Sounding Sensors over Obstructs Based on Reflective Intensity Modulated FiberOptic Sensor[J]. Acta Optica Sinica, 2010, 30(9): 2508.

基于强度型光纤传感器的声波隔体探测关键技术研究下载： 1613次

关于本站 Cookie 的使用提示

全站搜索

基于强度型光纤传感器的声波隔体探测关键技术研究 下载： 1613次

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索

基于强度型光纤传感器的声波隔体探测关键技术研究下载： 1613次