[1] M A Chory, D P Hoffman, J L Lemay. Satellite autonomous navigation-status and history[C]. Las Vegas, USA: IEEE Transaction on Position, Location and Navigation Symposium, 1986: 110-121.
[2] R T Savely, B F Cockrell, S Pines. Apollo Experience Reportonboard Navigational and Alignment Software[R]. Washington,D. C., National Aeronautics and Space Administration,1972.
[3] R B Gounley, R L White, E Gai. Autonomous satellite navigation by stellar refraction[J]. Journal of Guidance, 1984, 7(2): 129-134.
[4] J Anthony. Air force Phillips laboratory autonomous space navigation experiment[C]. Huntsville, AL AIAA Space Programs and Technologies Conference, 1992. 24-27.
[5] Fang Jiancheng, Ning Xiaolin, Tian Yulong. Spacecraft Autonomous Celestial narigation Principle and Method [M]. Beijing: National Defense Industry Press, 2006. 103-108, 185-186.
[6] Hu Jing, Yang Bo. Precise research on stellar horizon atmosphericrefraction model[J]. Journal of Beijing University of Aeronautics and Astronautics, 2006, 32(7): 773-777.
[7] Xue Shenfang, Ning Shunian, Jin Shengzhen, et al.. The starlight refaction in autonomous orbit determination for satellite by large field of view star sensors [J]. Acta Optica Sinica, 2006, 26(7): 971-974.
[8] Wang Xinlong, Ma Shan. High precision autonomous localization method for high altitude and long-flight-life of unmanned aerial vehicle [J]. Acta Aeronautica Et Astronautica Sinica, 2008, 29(s1): 39-45.
[11] Bruce R Hancock, Robert C Stirbi, Thomas J Cunningham, et al.. CMOS active pixel sensor specific performance effects on star tracker/imager position accuracy [C]. SPIE, 2001, 4284: 43-53.
[12] Yan Peipei, Fan Xuewu, He Jianwei. Design of hybrid refractive-diffractive star sensor optical system with small F-number [J]. Infrared and Laser Engineering, 2011, 40(12): 2458-2463.
[14] Gong Dun, Tian Tieyin, Wang Hong. Design of wide band and large relative aperture star sensor optical system with asphere [J]. Acta Optica Sinica, 2013, 33(8): 0822001.