[1] Wei Luo, Junhao Cao, Zixiao Lu, et al. Progress of on-orbit autonomous measurement for spacecraft structure deformation. Unmanned Systems Technology, 3, 54-59(2020).

[2] Xun Yang, Shuyan Xu, Xiaobo Li, et al. Influence of temperature gradient on thermal stability tolerance of large aperture reflective mirror. Infrared and Laser Engineering, 48, 0916003(2019).

[3] Wenbo Luo, Xinwei Zhang, Zhiying Qian, et al. Dimensional stability analysis of the satellite structure based on in-orbit temperature measurement data. Chinese Space Science and Technology, 41, 22-28(2021).

[4] E H Li, Y Z Li, T T Li, et al. Intelligent analysis algorithm for satellite health under time-varying and extremely high thermal loads. Entropy, 21, 983(2019).

[5] S Her, W Lin. Simultaneous measurement of temperature and mechanical strain using a fiber bragg grating sensor. Sensors, 20, 4223(2020).

[6] X Wang, W Wang, J Wang, et al. Thermal strain measurement of EAST tungsten divertor component with bare fiber Bragg grating sensors. Review of Scientific Instruments, 88, 123501(2017).

[7] L Lu, H Song, Y Wang, et al. Deformation behavior of non-rigid airships in wind tunnel tests. Chinese Journal of Aeronautics, 32, 611-618(2019).

[8] G Hegde, M Prasad, S Asokan. Temperature compensated diaphragm based Fiber Bragg Grating (FBG) sensor for high pressure measurement for space applications. Microelectronic Engineering, 248, 111615(2021).

[9] Cunhua Zhou, Zilong Ye, Jiyun Lu, et al. Damage monitoring on satellite’s typical composite honeycomb structure panel based on impact energy gradients. Science Technology and Engineering, 20, 4718-4722(2020).

[10] Weifang Jia, Baozhong Sun. Internal thermal strain measurement of composites with embedded fiber bragg grating sensors. Composites Science and Engineering, 75-78(2016).

[11] Lin Zhou, Jie Zeng, Yu Li, et al. Monitoring technology of thermal properties of aluminum alloy plate structure under space environment based on fiber optic. Aerospace Shanghai, 34, 108-115(2017).

[12] S Rickman, W Richards, E Christian, et al. Micrometeoroid/orbital debris(MMOD) impact detection and location using fiber optic Bragg grating sensing technology. Procedia Engineering, 188, 233-240(2017).

[13] Xiang Li, Shouda Wang, Jiaqi Zhang, et al. Loadable laser communication optical antenna. Infrared and Laser Engineering, 48, 1118001(2019).

[14] Z Jiang, C Zhang, Z Deng, et al. Thermal strain of cement-based materials under cryogenic temperatures and its freeze-thaw cycles using fibre Bragg grating sensor. Cryogenics, 100, 1-10(2019).

[15] Y Kuang, Y Guo, L Xiong, et al. Packaging and temperature compensation of fiber Bragg grating for strain sensing: A survey. Photonic Sensors, 8, 320-331(2018).

[16] R Li, Y Tan, Y Chen, et al. Investigation of sensitivity enhancing and temperature compensation for fiber Bragg grating (FBG)-based strain sensor. Optical Fiber Technology, 48, 199-206(2019).

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

[18] S Kang, D Kang, C Kim. Real-time monitoring of transverse thermal strain of carbon fiber reinforced composites under long-term space environment using fiber optic sensors. NDT & E International, 42, 361-368(2009).