[1] Guilin Peng, Zhiqiang Wan. Current status and prospects of remote sensing telemetry applications for aerostats in China. Journal of Geo-Information Science, 21, 34-41(2019).

[2] L B Liu, S Cao, M Zhu. Mechanical characteristics of stratospheric airship envelope of vectran fibre-reinforced-laminated composite. Materials Research Innovations, 19, S5-606-S5-612(2015).

[3] Zhen Ma, Xiyuan Chen. Fiber Bragg gratings sensors for aircraft wing shape measurement: Recent applications and technical analysis. Sensors, 19, 55(2018).

[4] [4] Zhou Yuege, Liu Dingyun, Li Dan, et al. Review on structural health moniting in metal aviation based on fiber bragg grating sensing technology[C]2020 Prognostics Health Management Conference (PHMBesanon), 2020.

[5] Cui Zhang, Yuan Tao, Xinglin Tong, et al. Monitoring system of railway track based on identity weak fiber Bragg grating array. Infrared and Laser Engineering, 48, 0622001(2019).

[6] Xiongxiong Zhang, Yanming Song, Fanyong Meng, et al. Variable aircraft flexible composite skin implanted optical fiber shape sensing. Infrared and Laser Engineering, 48, 0622003(2019).

[7] Baoxi Kan, Chao Yang, Heming Bian, et al. Humidity influence on embedded fiber Bragg grating strain sensors. Infrared and Laser Engineering, 47, S122007(2018).

[8] Penghao Zhang, Li Zhang, Zhongyu Wang, et al. A strain-transfer model of surface-bonded sapphire-derived fiber Bragg grating sensors. Applied Sciences, 10, 4399(2020).

[9] F Falcetelli, L Rossi, R D Sante, et al. Strain transfer in surface-bonded optical fiber sensors. Sensors, 20, 3100(2020).

[10] Li Sun, Chuang Li, Chunwei Zhang, et al. The strain transfer mechanism of fiber Bragg grating sensor for extra large strain monitoring.. Sensors, 19, 1851(2019).

[11] Guang Chen, Keqin Ding, Qibo Feng, et al. Strain transfer mechanism of grating ends fiber Bragg grating for structural health monitoring. Structural Durability & Health Monitoring, 13, 289-301(2019).

[12] Minfu Liang, Ningning Chen, Xinqiu Fang, et al. Strain transferring mechanism analysis of the surface-bonded FBG sensor. Applied Optics, 57, 5837(2018).

[13] P Motwani, N Perogamvros, S Taylor, et al. Experimental investigation of strain sensitivity for surface bonded fibre optic sensors. Sensors and Actuators A: Physical, 303, 111833(2020).

[14] M Fisser, R A Badcock, C W Bumby, et al. Method for in-situ strain transfer calibration of surface bonded fiber Bragg gratings. IEEE Sensors Journal, 19, 11926-11931(2019).

[15] Huaping Wang, Jianguo Dai. Strain transfer analysis of fiber Bragg grating sensor assembled composite structures subjected to thermal loading. Composites Part B Engineering, 162, 303-313(2019).

[16] Sang-Woo Kim. Characteristics of strain transfer and the reflected spectrum of a metal-coated fiber Bragg grating sensor. Optics and Lasers in Engineering, 96, 83-93(2017).

[17] Yumin Zhang, Lianqing Zhu, Fei Luo, et al. Comparison of metal-packaged and adhesive-packaged fiber Bragg grating sensors. IEEE Sensors Journal, 16, 5958-5963(2016).

[18] Peng Zeng, Yuan Wang, Feiqiong Chen, et al. Analysis of the effect of adhesives on the strain transmission of surface-mounted polyimide fiber Bragg gratings. Journal of Sensor Technology, 32, 47-53(2019).

[19] Yue Tian, Shangming Xiao. Development status and key technologies of stratospheric airship capsule materials. Synthetic Fiber in China, 42, 11-15(2013).

[20] [20] Qiu Ye. Research on the strain transfer mechanism of surfacemounted FBG senss[D]. Shanghai: Shanghai Jiaotong University, 2012. (in Chinese)

[21] Rujun Wu, Bailin Zheng, Pengfei He, et al. The influence of embedded fiber Bragg grating sensor packaging structure on measuring strain. Optics and Precision Engineering, 22, 24-30(2014).

[22] Wei Guo, Xinliang Li, Hao Song. Strain transmission analysis of surface-attached fiber grating sensor. Measurement Technology, 4-7(2011).

[23] Shizan He, Wujun Chen, Chengjun Gao, et al. Uniaxial tensile mechanical properties and elastic constants of aerostat skin membrane composites. Journal of Composite Materials, 34, 224-230(2017).

[24] [24] Lin Guochang, Yue Pengyang. A mechanical model of fabric composite materials based on bulging experiment[C]The First China International Composite Materials Science Technology Conference, 2013. (in Chinese)