[1] MAGALHES F, CUNHA A, CAETANO E. Vibration based structural health monitoring of an arch bridge: from automated OMA to damage detection［J］. Mechanical Systems and Signal Processing, 2012, 28(2): 212-228.

[2] LI Z X, YAN X P, WANG X P, et al. Detection of gear cracks in a complex gearbox of wind turbines using supervised bounded component analysis of vibration signals collected from multi-channel sensors［J］. Journal of Sound and Vibration, 2016, 371: 406-433.

[3] TVETEN A B, DANDRIDGE A, DAVIS C M. Optical fiber accelerometer［J］. Electronics Letters, 1980, 16(22): 854-856.

[4] CHENG Zhen-long, ZHAO Jian-lin, ZHOU Wang-min, et al. A vibration sensor based on fiber Bragg grating Fabry-Perot cavity［J］. Acta Photonica Sinica, 2010, 39(1): 47-52.

[5] SUN Ru-jiao, SUN Li-min, SUN Zhi, et al. Design research of fiber Bragg grating accelerometer［J］. Acta Photonica Sinica, 2007, 36(1): 63-67.

[6] CHAO S H, LOH C H, LI C H. Vibration-based damage identification of reinforced concrete member using optical sensor array data［J］. Structural Health Monitoring, 2013, 12(5-6): 397-410.

[7] XU D S, YIN J H, CAO Z Z, et al. A new flexible FBG sensing beam for measuring dynamic lateral displacements of soil in a shaking table test［J］. Measurement, 2013, 46(1): 200-209.

[8] GUO T, QIAO X G, JIA Z A, et al. Technology of fiber gratings sensing and its applications in petroleum industry［J］. Journal of Test and Measurement Technology, 2004, 18(3): 208-213.

[9] POSADA-ROMAN J, GARCIA-SOUTO J A, RUBIO-SERRANO J. Fiber optic sensor for acoustic detection of partial discharges in oil-paper insulated electrical systems［J］. Sensors, 2012, 12(4): 4793-4802.

[10] YU B, KIM D W, DENG J, et al. Fiber Fabry-Perot sensors for detection of partial discharges in power transformers［J］. Apply Optics, 2003, 42(16): 3241-3250.

[11] KHAN M M, PANWAR N, DHAWAN R. Modified cantilever beam shaped FBG based accelerometer with self temperature compensation［J］.Sensors and Actuators A: Physical, 2014, 205(1): 79-85.

[12] LI K, CHAN T H T, YAU M H, et al. Very sensitive fiber Bragg grating accelerometer using transverse forces with an easy over-range protection and low cross axial sensitivity［J］.Applied Optics, 2013, 52(25): 6401-6410.

[13] ZHANG T X, ZHAO Y F, WEI D M, et al. Fiber-optic Michelson accelerometer based on frequency modulation［J］.IEEE Photonics Technology Letters, 2014, 26(23): 2361-2364.

[14] ZHANG Z Y, BAO X Y. Continuous and damped vibration detection based on fiber diversity detection sensor by Rayleigh backscattering［J］.Journal of Lightwave Technology, 2008, 26(7): 832-838.

[15] QIN F X, LI H G, FAN W D, et al. Experimental study on vibration frequency response of micro-bend optic-fiber sensor［J］.Chinese Optics Letters, 2009, 7(7): 556-559.

[16] KISHORE P, DINAKAR D, SRIMANNARAYANA K, et al. Vibration sensor using 2 × 2 fiber optic coupler［J］.Optical Engineering, 2013, 52(10): 107104.

[17] YAO G Z, LI Y Q, YANG Z. A simple intensity modulation based fiber-optic accelerometer［J］. Optical Fiber Technology, 2016, 29(5): 53-58.

[18] LI Yong-qian, YAO Guo-zhen, YANG Zhi. A high precision fiber Bragg grating wavelength demodulation system［J］.Acta Photonica Sinica, 2012, 41(12): 1405-1411.

[19] NI K, CHAN C C, DONG X, et al. Temperature-independent accelerometer using a fiber Bragg grating incorporating a biconical taper［J］. Optical Fiber Technology, 2013, 19(5): 410-413.

[20] NGOIB K A, PAUL J, ZHAO L P. Enhanced lateral pressure tuning of fiber Bragg gratings by polymer packaging［J］. Optics Communications, 2004, 242(4-6): 425-430.

[21] YU You-long, XUE Hang, WANG Yan-xiao, et al. Temperature distributed sensing technique for the local-area of the surface based on fiber Bragg gratings［J］.Acta Photonica Sinica, 2014, 43(5): 0506004.