[2] ZHANG Ke-ke, RUAN Ning-juan, FU Dan-ying. Analysis and consideration of development of oversea space off-axis TMA system camera[J]. Spacecraft Recovery & Remote Sensing, 2008, 29(3): 63-70.
[3] BAO He, LI Zhi-lai. Design of the strip SiC mirror supporting structure and lightweight[J]. Optics Precision Engineering, 2008, 34(4): 593-596.
[7] YUAN Jian, REN Jian-yue. Improvement and optimization of lightweight structure for SiC reflective mirror [J]. Acta Photonica Sinica, 2015, 44(8): 08121004.
[9] LIU Xiu-min, HE Bing, SHA Wei, et al. Topological lightweight design of primary mirror in space camera[J].Chinese Optics, 2010,6(3): 239-244.
[10] DORN W S, GOMORY R E, GREENBERG H J. Automatic design of optimal structure [J]. Journal de mecanique,1964, 3(6): 25-52.
[11] ZOU Yan, WU Qing-wen, DONG Dong-yi, et al. Research on analysis and test of random vibration on tripodic supporting structure of space camera[J]. Journal of System Simulation, 2009, 21(16): 5009-5017.
[12] Singiresu S. Rao. Mechanical Vibrations[M]. Beijing: Tsinghua University Press, 2009.
[13] HAN Zeng-yao, QU Guang-ji. Wide-band random vibration response prediction study of the spacecraft structure[J]. Chinese Space Science and Technology, 2002, (1): 24-30.
[14] YAN Yong, JIN Guang, YANG Hong-bo. Lightweight structural design of space mirror [J]. Infrared and Laser Engineering, 2008(1): 97-101.
[15] GUO Zhong-ze, ZHANG Wei-hong, CHEN Yu-ze. Review of topology optimization design[J]. Journal of Machine Design, 2007, 24(8): 1-4.
[16] HONG Qing-quan, ZHAO Kang. The theoretical basis and engineering application of optistruct & hyperstudy [M]. Beijing: China machine Press, 2012.