[1] P Y BELY. The Design and Construction of Large Optical Telescopes(2003).

[2] T ANDERSEN, A ENMARK. Integrated Modeling of Telescopes(2011).

[3] D G MACMYNOWSKI, C BLAUROCK, G Z ANGELI et al. Modeling wind-buffeting of the thirty meter telescope. Systems Engineering, 6271, M2710-M2710(2006).

[4] F W KAN, D W EGGERS. Wind vibration analyses of Giant Magellan Telescope. Systems Engineering(2006).

[5] G Z ANGELI. TMT wind model validation with measurements on Keck and Gemini. Systems Engineering(2006).

[6] T POTTEBAUM, D G MACMYNOWSKI. Buffeting of large telescopes： wind-tunnel measurements of the flow inside a generic enclosure. Journal of Fluids and Structures, 22, 3-19(2006).

[7] K VOGIATZIS, A SEGURSON, G Z ANGELI. Estimating the effect of wind loading on extremely large telescope performance using computational fluid dynamics, 5497, 311-320(2004).

[8] D G MACMYNOWSKI, T ANDERSEN. Wind buffeting of large telescopes. Applied Optics, 49, 625(2010).

[9] D G MACMYNOWSKI, K VOGIATZIS, G Z ANGELI et al. Wind loads on ground-based telescopes. Applied Optics, 45, 7912-7923(2006).

[10] R M GLAESE, M SHEEHAN. Vibration mitigation for wind-induced jitter for the giant Magellan telescope, 8444, 300-314(2012).

[11] [11] 11杨德华， 徐灵哲， 徐欣圻. 大型光学天文望远镜风载作用分析［J］. 光学技术， 2009， 35（3）： 342-346. doi: 10.3321/j.issn:1002-1582.2009.03.012YANGD H， XUL Z， XUX Q. Wind disturbance study on large astronomical telescopes［J］. Optical Technique， 2009， 35（3）： 342-346.（in Chinese）. doi: 10.3321/j.issn:1002-1582.2009.03.012

[12] [12] 12周超， 杨洪波， 吴小霞， 等. 1.2 m望远镜风载作用分析［J］. 红外与激光工程， 2011， 40（5）： 889-893. doi: 10.3969/j.issn.1007-2276.2011.05.023ZHOUC， YANGH B， WUX X， et al. Influence of wind loading on the 1.2 m telescope［J］. Infrared and Laser Engineering， 2011， 40（5）： 889-893.（in Chinese）. doi: 10.3969/j.issn.1007-2276.2011.05.023

[13] [13] 13潘年， 马文礼， 黄金龙. 地基望远镜风载数值分析［J］. 红外与激光工程， 2015， 44（1）： 134-140. doi: 10.3969/j.issn.1007-2276.2015.01.024PANN， MAW L， HUANGJ L. Numerical analysis of wind load on ground-based telescope［J］. Infrared and Laser Engineering， 2015， 44（1）： 134-140.（in Chinese）. doi: 10.3969/j.issn.1007-2276.2015.01.024

[14] [14] 14徐江海， 宫雪非. 利用数值风洞实验进行四种天文圆顶的风载研究［J］. 光学学报， 2015， 35（5）： 0501005. doi: 10.3788/aos201535.0501005XUJ H， GONGX F. Study of wind load on four astronomical enclosures based on numerical wind tunnel experiments［J］. Acta Optica Sinica， 2015， 35（5）： 0501005.（in Chinese）. doi: 10.3788/aos201535.0501005

[15] [15] 15宋玉鹏， 陈建兵， 彭勇波. 二维空间脉动风场波数-频率联合功率谱表达的FFT模拟［J］. 振动工程学报， 2020， 33（4）： 660-666. doi: 10.16385/j.cnki.issn.1004-4523.2020.04.003SONGY P， CHENJ B， PENGY B. Simulation of fluctuating wind field in two-spatial dimensions by FFT implementation of wavenumber-frequency joint power spectrum［J］. Journal of Vibration Engineering， 2020， 33（4）： 660-666.（in Chinese）. doi: 10.16385/j.cnki.issn.1004-4523.2020.04.003

[16] [16] 16刘章军， 叶永友， 刘增辉. 脉动风速连续随机场的降维模拟［J］. 工程力学， 2018， 35（11）： 8-16. doi: 10.6052/j.issn.1000-4750.2017.07.0570LIUZ J， YEY Y， LIUZ H. Simulation of fluctuating wind velocity continuous stochastic field by dimension reduction approach［J］. Engineering Mechanics， 2018， 35（11）： 8-16.（in Chinese）. doi: 10.6052/j.issn.1000-4750.2017.07.0570

[17] B A BENOWITZ, G DEODATIS. Simulation of wind velocities on long span structures： a novel stochastic wave based model. Journal of Wind Engineering and Industrial Aerodynamics, 147, 154-163(2015).

[18] D G MACMYNOWSKI, G Z ANGELI, K VOGIATZIS et al. Parametric modeling and control of telescope wind-induced vibration, 5497, 266-277(2004).

[19] [19] 19曹玉岩， 王建立， 陈涛， 等. 基于Hexapod平台的地基大型光学望远镜失调误差主动补偿［J］. 光学 精密工程， 2020， 28（11）： 2452-2465. doi: 10.37188/OPE.20202811.2452CAOY Y， WANGJ L， CHENT， et al. Active compensation of aberration for large ground-based telescope based on Hexapod platform［J］. Opt. Precision Eng.， 2020， 28（11）： 2452-2465.（in Chinese）. doi: 10.37188/OPE.20202811.2452