[1] Li Jing, Zhao Shubo. Reviews of space laser communication research[J]. Electronic Test, 2013 (3/4): 80-83.
[2] Bai Shuai, Wang Jianyu, Zhang Liang, et al. Development progress and trends of space optical communications[J]. Laser & Optoelectronics Progress, 2015, 52(7): 070001.
[3] Jiang Huilin, Tong Shoufeng, Zhang Lizhong. The technologies and systems of space laser communication[M]. Beijing: National Defense Industry Press, 2010: 215-291.
[4] Ma Jiaguang, Tang Tao. Review of compound axis servomechanism tracking control technology[J]. Infrared and Laser Engineering, 2013, 42(1): 218-227.
[5] Jiang Huilin, Jiang Lun, Song Yansong, et al. Research of optical and APT technology in one-point to multi-point simultaneous space laser communication system[J]. Chinese J Lasers, 2015, 42(4): 0405008.
[6] Zhao Xin, Song Yansong, Tong Shoufeng, et al. Dynamic demonstration experiment of acquisition, pointing and tracking system in space laser communications[J]. Chinese J Lasers, 2014, 41(3): 0305005.
[7] Song Yansong, Tong Shoufeng, Dong Yan, et al. Technique of compound axis control using single detector based on field programmable gate array[J]. Acta Photonica Sinica, 2014, 43(4): 0406001.
[9] Mohan S, Alvarez-Salazar O, Birnbauma K, et al. Pointing, acquisition, and tracking architecture tools for deep-space optical communications[C]. SPIE, 2014, 8971: 89710H.
[10] Yang Yi, Yang Zhen. Research on compound-axis APT system in satellite and ground station laser communication[J]. Electronic Design Engineering, 2013, 21(23): 27-30.
[11] Alexander J W, Lee S, Chen C C. Pointing and tracking concepts for deep space missions[C]. SPIE, 2015, 3615: 230-249.