Citation: | YAN Ruidong, WANG Ronglan, LIU Siqing, SHI Liqin, GONG Jiancun. Optimal Impulsive Design for Aeroassisted Orbit Transfer in Noncoplanar Orbit Debris Remove[J]. Chinese Journal of Space Science, 2017, 37(1): 105-113. doi: 10.11728/cjss2017.01.105 |
[1] |
DU Heng, ZHANG Wenxiang, PANG Baojun, et al. Space Debris[M]. Beijing:Chinese Astronautic Publish House, 2007
|
[2] |
YAN Ruidong, WANG Ronglan, LIU Siqing. Study of covariance calculation in space objects collision warning[J]. Chin. J. Space Sci., 2014, 34(4):441-448(闫瑞东, 王荣兰, 刘四清, 等. 空间目标碰撞预警的协方差计算与应用[J]. 空间科学学报, 2014, 34(4):441-448)
|
[3] |
LIOU J C, JOHNSON N L, HILL N M. Controlling the growth of future LEO debris populations with active debris removal[J]. Acta Astron., 2010, 66(5/6):648-653
|
[4] |
NIELS VAN DER PAS, LOUSDA J, TERHES C, et al. Target selection and comparison of mission design for space debris removal by DLR's advanced-study group[J]. Acta Astron., 2014, 102 (9/10):241-248
|
[5] |
CUI Enhui. Changzheng-3C/Yuanzheng-1 rocket lunch successfully[N/OL].[2015-04-01]. http://zhuanti.spa-ce-china.com/n881117/content.html
|
[6] |
WU Delong, WANG Xiaojun. Aeroassisted Orbit Transfer Dynamics and Spacecraft Control[M]. Beijing:Chinese Astronautic Publishing House, 2006
|
[7] |
HU Songqi, CHEN Yu. Analysis of pseudo spectral methods applied to aircraft trajectory optimization[J].J. Roc-ket Prop., 2014, 40(5):61-68(胡松启, 陈雨. 伪谱法在飞行器轨迹优化中应用分析[J]. 火箭推进, 2014, 40(5):61-68)
|
[8] |
HUANG G Q, LU Y P, NAN Y. A survey of numerical algorithms for trajectory optimization of flight vehicles[J]. Sci. China:Tech. Sci., 2012, 42(9):1016-1036
|
[9] |
Portland State Aerospace Society. Simple Rocket Science[R]. Portland:Portland State University, 2010
|