姿态对地指向不断变化成像时的像移速度计算
黄群东, 杨芳, 赵键. 姿态对地指向不断变化成像时的像移速度计算[J]. 光学 精密工程, 2012, 20(12): 2812.
HUANG Qun-dong, YANG Fang, ZHAO Jiang. Calculation of image motion velocity for agile satellite dynamic imaging to changed continuously attitude point[J]. Optics and Precision Engineering, 2012, 20(12): 2812.
[1] HUANG Q L, LI X M. Application of TDICCD on real-time earth reconnaissance satellite[C]//Proc. Of SPIE, Automated Optical Inspection for Industry: Theory, Technology and Applications Ⅱ (3558) Washington, 1998:93-104.
[2] 黄群东, 杨芳, 赵键. 敏捷成像速度失配时的偏流角计算及姿态补偿[C]. 2011年先进航天控制技术发展学术会议,黄山,2011:136-144.
HUANG Q D, YANG F, ZHAO J. Calculation and attitude compensation for the drift angle caused by the agile imaging and the velocity mismatch[C]. 2011, The Development Of Advanced Space Control Technologies Conference,Huangshan,2011:136-144.(in Chinese)
[3] 王家骐, 于平, 颜昌翔, 等. 航天光学遥感器像移速度矢计算数学模型[J]. 光学学报, 2004,24(12):1585-1589.
[4] 颜昌翔, 王家骐. 航相机像移补偿计算的坐标变换方法[J]. 光学 精密工程, 2006,14(3):203-207.
YAN C X, WANG J Q. Method of coordinate transformation for IM&IMC calculation in aerospace camera system[J]. Opt. Precision Eng., 2006,14(3):203-207.(in Chinese)
[5] 王运, 颜昌翔. 基于差分法的空间相机像移速度矢量计算[J]. 光学 精密工程, 2011,19(5):1054-1060.
[6] 闫得杰, 韩诚山, 李伟雄. 飞行器侧摆和前后摆及控制误差的优化设计[J]. 光学 精密工程, 2009,17(9):2224-2229.
[7] 闫得杰, 徐抒岩, 韩诚山. 飞行器姿态对空间相机像移补偿的影响[J]. 光学 精密工程, 2008,16(11):2199-2203.
[8] JEAN J, ERIC J, GRARD L, et al.. Attitude guidance technics developed in CNES for earth observation and scientific missions[C]. The 28th Annual AAS Guidance and Control Conference, Breckenridge,2005:11-16.
[9] PERRET L, BOUSSARIE E, LACHIVER J M, et al.. The Pléiades system high resolution optical satellite and its performances[C]. The 53rd International Astronautical Congress The World Space Congress, Houston,2002.
[10] 刘一武, 张军. 敏捷卫星快速姿态机动控制方法研究[C]. 全国第十三届空间及运动体控制技术学术年会论文集, 宜昌, 2008:1-6.
LIU Y W, ZHANG J. Agile satellite fast attitude maneuver control method research[C]. The Thirteenth National Conference On Space And Motion Control Technology Conference, Yichang, 2008:1-6.(in Chinese)
[11] 樊超, 李英才, 易红伟. 速高比对TDICCD相机的影响分析[J]. 兵工学报, 2007,28(7):817-821.
FAN C, LI Y C, YI H W. Influence of Velocity-Height ratio of satellite on the TDICCD camera[J]. Acta Armamentarii, 2007,28(7):817-821.(in Chinese)
[12] MILLER B M, RUBINOVICH E Y. Image motion compensation at charge-coupled device photographing in delay Integration mode [J]. Automation and Remote Control, 2007, 68(3):564-571.
[13] OLSON G. Image motion compensation with frame transfer CCD’s [J]. SPIE, 2002,4567:153-160.
[14] SMITH S L ,TANTALO J M. Understanding image quality losses due to smear in high-resolution remote sensing imaging system [J].Opt Eng,1999,38(5):821-826.
[15] 翟林培, 刘明, 修吉宏. 考虑飞机姿态角时倾斜航空相机像移速度计算 [J]. 光学 精密工程, 2006, 14(3):490-494.
[16] DAMILANO P. Pleiades high resolution satellite: a solution for military and civilian needs in metric-class optical observation[C]. The 15th Annual/USU Conference on Small Satellites, 2001.
[17] 张林, 吴晓琴, 汤宫民. 基于MTF的时间延迟积分CCD成像系统同步误差分析[J]. 应用光学, 2006, 27(2):167-170.
黄群东, 杨芳, 赵键. 姿态对地指向不断变化成像时的像移速度计算[J]. 光学 精密工程, 2012, 20(12): 2812. HUANG Qun-dong, YANG Fang, ZHAO Jiang. Calculation of image motion velocity for agile satellite dynamic imaging to changed continuously attitude point[J]. Optics and Precision Engineering, 2012, 20(12): 2812.