[2] Tao Yue. The achievements and future prospects of chinese space optical remote sensing technology. Spacecraft Recovery & Remote Sensing, 29, 10-19(2008).
[3] Xiaoyong Wang. Development and prospect of space optical technology. Spacecraft Recovery & Remote Sensing, 39, 79-86(2018).
[4] Shengyang Li, Zhiwen Liu, Kang Liu, et al. Advances in application of space hyperspectral remote sensing (
[5] Yoder P R Jr. OptoMechanical Systems Design [M]. 3rd ed. Zhou Haixian, Cheng Yunfang, translated. Beijing: China Machine Press, 2008. (in Chinese)
[6] Smith W J. Modern Optical Engineering [M]. 4th ed. Zhou Haixian, Cheng Yunfang, translated. Beijing: Chemical Industry Press, 2011. (in Chinese)
[7] Lei Shi, Guang Jin, Haiying Tian, et al. Autofocusing method with automatic calibration for aerial camera. Optics and Precision Engineering, 16, 2460-2464(2008).
[8] He Zhu, Wei Liang, Xiaodong Gao. Autofocusing system with opto-electronic auto-collimation method for aerial camera. Opto-Electronic Engineering, 38, 35-39(2011).
[9] Zhanquan Xiao, Linpei Zhai, Yalin Ding, et al. Research of optical assembly errors effects on TDI-CCD camera. Semiconductor Optoelectronics, 29, 795-798(2008).
[10] Chaoliang Yong, Jianchun Lin, Ming Zhao, et al. Mosaic of spatial large scale CMOS focal plane array. Infrared and Laser Engineering, 41, 2562-2566(2012).
[11] Huaide Zhou, Jinguo Liu, Liping Zhang, et al. Development of focal plane module for three-line LMCCD mapping cameras. Optics and Precision Engineering, 20, 1492-1499(2012).
[12] Qinghua Meng. Structure design of stitching instrument for area CCD. OME Information, 27, 32-35(2010).