[1] SUN Man. Health monitoring of engineering structures using fiber bragg grating sensing technology［D］. Chengdu: Sichuan University, 2005: 114.

[2] FALCIAI R, TRONO C. Curved elastic beam with opposed fiberBragg gratings for measurement of large displacements with temperature compensation［J］. IEEE Sensors Journal, 2005, 5(6): 13101314.

[3] TANG Li, DING Lihua, TANG Zifeng. Study of new optical fiber bragg grating sensor for displacement［J］. Instrument Technique and Sensor, 2009(s1): 182183.

[4] HE Jun, DONG Huijuan, ZHOU Zhi, et al. A kind of new displacement sensor based on FBG for engineering［J］. Journal of Harbin University of Science And Technology, 2010, 15(5): 6164.

[5] LIU Bo, NIU Wencheng, YANG Yefei, et al. Exactitude displacement measurement based on fiber bragg grating sensors［J］. Nanotechnology and Precision Engineering, 2005, 3(1): 5355.

[6] ZHAO Yong, ZHAO Huawei, ZHANG Xinyuan. A novel doublearchedbeambased fiber bragg grating sensor for displacement measurement［J］. IEEE Photonics Technology Letters, 2008, 20(15): 12961298.

[7] FU Dong, LI Hongwei, LENG Zhipeng, et al. Research and design of selfcompensation fbgbased displacement sensor for structural health monitoring［J］. Low Temperature Architecture Technology, 2009(6):12.

[8] WANG Qiong, YAN Nan. Design and study of fiber sensor based on cantilever beam of uniform strength［J］. Control & Automation, 2010, 26(2): 107108.

[10] ZHAN Yage, CAI Haiwen, GENG Jianxin, et al. Study on aluminum groove encapsulating technique and sensing characteristics of FBG sensor［J］. Acta Photonica Sinica, 2004, 33(8): 952955.

[11] YU Xiujuan, YU Youlong, ZHANG Min, et al. Study on the strain and temperature densing characteristics of FBG packaged by the copper slice［J］. Acta Photonica Sinica, 2006, 35(9): 13251328.