"ᠪᠤᠶᠠᠨᠬᠡᠰᠢᠭ"-ны өөр хувилбарууд
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<br> | <br>ᠨᠡᠢᠢᠲᠡᠯᠡᠯ ᠦᠳ ᠦᠨ ᠵᠣᠬᠢᠶᠠᠭᠴᠢᠳ ᠤᠨ ᠨᠡᠷ᠋ᠡ ᠳᠡᠬᠢ Baoyin ᠭᠡᠵᠦ ᠪᠠᠶ᠋ᠢᠭᠠ ᠨᠢ ᠪᠤᠶᠠᠨ᠂ Hexi ᠭᠡᠵᠦ ᠪᠠᠶ᠋ᠢᠭᠠ ᠨᠢ ᠬᠡᠰᠢᠭ ᠭᠡᠰᠡᠨ ᠭᠠᠯᠢᠭ ᠪᠣᠯᠤᠮᠤᠢ᠃ | ||
1. Baoyin᠂ H᠂ Mcinnes᠂ C᠂ Solar sail halo orbits at the Sun–Earth artificial L 1 point᠂ Celestial Mechanics and Dynamical Astronomy᠂ 94(2) 155-171᠂ 2006 | |||
(ᠨᠠᠷᠠᠨ ᠤ ᠳᠠᠯᠪᠠᠭᠠᠨ ᠤ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠨᠠᠷᠠ - ᠳᠡᠯᠡᠬᠡᠢ ᠶᠢᠨ L 1 ᠴᠡᠭ ᠲᠦ ) | |||
2. Baoyin᠂ H᠂ Li J᠂ Gao Y᠂ Dynamical behaviors and relative trajectories of the spacecraft formation flying᠂ Aerospace science and technology᠂ 6(4)295-301᠂ 2002 | |||
(ᠣᠭᠲᠠᠷᠭᠤᠢ ᠶᠢᠨ ᠬᠥᠯᠭᠡ ᠶᠢᠨ ᠵᠠᠯᠭᠠᠭᠳᠠᠬᠤ ᠨᠢᠰᠦᠯᠭᠡ ᠶᠢᠨ ᠦᠶᠡ ᠶᠢᠨ ᠳ᠋ᠢᠨᠠᠮᠢᠻ ᠰᠢᠨᠵᠢ ᠪᠠᠶ᠋ᠢᠳᠠᠯ᠂ ᠬᠠᠷᠢᠴᠠᠩᠭᠤᠢ ᠵᠠᠮᠨᠠᠯ) | |||
3. Baoyin᠂ H᠂ Mcinnes᠂ C᠂ Solar sail equilibria in the elliptical restricted three-body problem᠂ Journal of guidance᠂ control᠂ and dynamics᠂ 29(3) 538-543᠂ 2006 | |||
(ᠨᠠᠷᠠᠨ ᠤ ᠬᠠᠪᠲᠠᠨ ᠤ ᠲᠡᠩᠴᠡᠪᠦᠷᠢᠵᠢᠯᠲᠡ ᠬᠢᠵᠠᠭᠠᠷᠯᠠᠭᠳᠠᠮᠠᠯ ᠵᠤᠤᠪᠠᠩ ᠵᠠᠮᠨᠠᠯ ᠳᠠᠬᠢ ᠭᠤᠷᠪᠠᠨ ᠪᠡᠶᠡᠲᠦ ᠶᠢᠨ ᠠᠰᠠᠭᠤᠳᠠᠯ ᠳᠤ) | |||
4. Baoyin᠂ H᠂ Mcinnes᠂ C᠂ Trajectories to and from the Lagrange Points and the Primary Body Surfaces᠂ Journal of guidance᠂ control᠂ and dynamics᠂ 29(4) 998-1003᠂ 2006 | |||
(ᠯᠠ ᠭᠷᠠᠩᠵᠢ ᠢᠢᠨ ᠴᠡᠭ ᠬᠦᠷᠬᠦ ᠪᠠ ᠪᠤᠴᠠᠬᠤ ᠵᠠᠮᠨᠠᠯ ᠪᠣᠯᠤᠨ ᠪᠡᠶᠡᠲᠦ ᠶᠢᠨ ᠠᠩᠬᠠᠳᠠᠭᠴᠢ ᠭᠠᠳᠠᠷᠭᠤ) | |||
5. Baoyin᠂ H᠂ Mcinnes᠂ C᠂ Solar sail orbits at artificial Sun-Earth libration points᠂ Journal of guidance᠂ control᠂ and dynamics᠂ 28(6)1328-1331᠂2005 | |||
(ᠨᠠᠷᠠ ᠳᠡᠯᠡᠬᠡᠢ ᠶᠢᠨ ᠵᠣᠬᠢᠶᠠᠮᠠᠯ ᠲᠡᠩᠴᠡᠯ ᠦᠨ ᠴᠡᠭ ᠦᠳ ᠳ᠋ᠡᠬᠢ ᠨᠠᠷᠠᠨ ᠤ ᠬᠠᠪᠲᠠᠩ ᠤᠨ ᠵᠠᠮᠨᠠᠯ) | |||
6. Gong᠂ S᠂ Li᠂ J᠂ Baoyin᠂ H᠂ Passive Stability Design for Solar Sail on Displaced Orbits᠂ Journal of Spacecraft and Rockets᠂ 44(5)1071-1080᠂ 2007 | |||
(ᠪᠠᠶ᠋ᠢᠷᠢᠰᠢᠯ ᠭᠠᠵᠢᠭᠰᠠᠨ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠳᠠᠬᠢ ᠨᠠᠷᠠᠨ ᠤ ᠬᠠᠪᠲᠠᠩ ᠤᠨ ᠢᠳᠡᠪᠬᠢ ᠦᠭᠡᠢ ᠲᠣᠭᠲᠠᠪᠤᠷᠢᠲᠤ ᠪᠦᠲᠦᠭᠡᠴᠡ) | |||
7. Jiang᠂ F᠂ Baoyin᠂ H᠂ Li᠂ J᠂ Practical techniques for low-thrust trajectory optimization with homotopic approach᠂ Journal of Guidance᠂ Control᠂ and Dynamics᠂ 35(1)245-258᠂ 2012 | |||
(ᠨᠠᠮ ᠲᠡᠶ᠋ᠢᠷᠦᠯᠲᠡᠲᠦ ᠵᠠᠮᠨᠠᠯ ᠢ ᠣᠨᠣᠪᠴᠢᠯᠠᠬᠤ ᠠᠷᠭᠠᠴᠢᠯᠠᠯ ᠤᠳ) | |||
8. Zhu᠂ K᠂ Li᠂ J᠂ Baoyin᠂ H᠂ Satellite scheduling considering maximum observation coverage time and minimum orbital transfer fuel cost᠂ Acta Astronautica᠂ 66(1) 220-229᠂ 2010 | |||
(ᠠᠵᠢᠭᠯᠠᠯᠲᠠ ᠶᠢᠨ ᠤᠷᠲᠤᠰᠬᠠᠭᠰᠠᠨ ᠬᠤᠭᠤᠴᠠᠭᠠ᠂ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠳᠤ ᠰᠢᠯᠵᠢᠬᠦ ᠴᠣᠮᠬᠠᠳᠬᠠᠭᠰᠠᠨ ᠲᠦᠯᠡᠰᠢ ᠵᠠᠷᠤᠴᠠᠭᠤᠯᠤᠯᠲᠠ ᠶᠢ ᠲᠣᠭᠠᠴᠠᠭᠰᠠᠨ ᠬᠢᠮᠡᠯ ᠳᠠᠭᠠᠭᠤᠯᠢ ᠶᠢᠨ ᠴᠠᠭ ᠤᠨ ᠲᠥᠯᠥᠪᠯᠡᠯᠲᠡ) | |||
9. Baoyin᠂ Hexi; Yu᠂ Yang; Li᠂ Junfeng; Orbital Maneuver for a Rotating Tethered System via Tidal Forces᠂ Journal of Spacecraft and Rockets᠂ 50(5)1060-1068᠂ 2013 | |||
(ᠡᠷᠭᠢᠯᠳᠦᠵᠦ ᠪᠤᠢ ᠵᠠᠯᠭᠠᠭᠳᠠᠭᠰᠠᠨ ᠪᠡᠶᠡᠲᠦ ᠨᠦᠭᠦᠳ ᠢ ᠲᠠᠲᠠᠬᠤ ᠬᠦᠴᠦᠨ ᠦ ᠲᠤᠰᠠᠯᠠᠮᠵᠢ ᠲᠠᠢ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠳᠤ ᠤᠳᠤᠷᠢᠳᠬᠤ ᠨᠢ) | |||
10. Chen᠂ Yang; Baoyin᠂ Hexi; Li᠂ Junfeng; Accessibility of Main-Belt Asteroids via Gravity Assists᠂ Journal of Guidance᠂ Control᠂ and Dynamics᠂ 37(2)623-632᠂ 2014 | |||
(ᠲᠠᠲᠠᠯᠴᠠᠯ ᠤᠨ ᠬᠦᠴᠦ ᠶᠢ ᠠᠰᠢᠭᠯᠠᠨ ᠪᠠᠭᠠ ᠭᠠᠷᠠᠭ ᠤᠨ ᠪᠥᠰᠡ ᠳ᠋ᠡᠬᠢ ᠠᠰᠲ᠋ᠸᠷᠣᠶ᠋ᠢᠳ᠋ ᠤᠳ ᠲᠤ ᠬᠦᠷᠬᠦ) | |||
11. Jin᠂ Jin; Baoyin᠂ Hexi; Li᠂ Junfeng; Attitude scheme for satellite with defective inertia characteristic᠂ Aircraft Engineering and Aerospace Technology᠂ 85(5)422-431᠂ 2013 | |||
(ᠭᠠᠵᠢᠭᠤ ᠢᠨᠧᠷᠼ ᠦᠨ ᠦᠵᠡᠭᠦᠯᠦᠯᠲᠡ ᠲᠡᠢ ᠬᠢᠮᠡᠯ ᠳᠠᠭᠠᠭᠤᠯᠢ ᠶᠢᠨ ᠬᠡᠯᠪᠡᠶ᠋ᠢᠯᠲᠡ ᠶᠢᠨ ᠵᠠᠭᠪᠤᠷ) | |||
12. Baoyin᠂ Hexi; Li᠂ Junfeng; A survey on orbital dynamics and navigation of asteroid missions Acta Mechanica Sinica᠂ 1᠂ 2013 | |||
(ᠠᠰᠲ᠋ᠸᠷᠣᠶ᠋ᠢᠳ᠋ ᠤᠨ ᠰᠤᠳᠤᠯᠭᠠᠨ ᠤ ᠨᠢᠰᠦᠯᠭᠡ ᠶᠢᠨ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠤᠨ ᠳ᠋ᠢᠨᠠᠮᠢᠻ᠂ ᠤᠳᠤᠷᠢᠳᠤᠯᠭᠠ ᠶᠢᠨ ᠲᠠᠩᠳᠠᠨ ᠰᠤᠳᠤᠯᠭᠠ) | |||
13. Yu᠂ Y᠂ Baoyin᠂ H᠂ Orbital dynamics in the vicinity of asteroid 216 Kleopatra᠂ The Astronomical Journal᠂ 143(3)62-70᠂2012 | |||
(216 ᠻ᠊ᠯᠧᠣᠫᠠᠲ᠋ᠷᠠ ᠠᠰᠲ᠋ᠸᠷᠣᠶ᠋ᠢᠳ᠋ ᠤᠨ ᠣᠷᠴᠢᠨ ᠳᠠᠬᠢ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠤᠨ ᠳ᠋ᠢᠨᠠᠮᠢᠻ) | |||
14. Gong᠂ S᠂ Li᠂ J᠂ Baoyin᠂ H᠂ Lunar landing trajectory design based on invariant manifold ᠂ Applied mathematics and mechanics᠂ 28()201-207᠂ 2007 | |||
(ᠰᠠᠷᠠᠨ ᠳᠤ ᠪᠠᠭᠤᠬᠤ ᠵᠠᠮᠨᠠᠯ ᠤᠨ ᠲᠣᠭᠠᠴᠠᠭᠠ) | |||
15. Jiang᠂ F; Li᠂ J; Baoyin᠂ H; Study on relative orbit geometry of spacecraft formations in elliptical reference orbits᠂ Journal of guidance᠂ control᠂ and dynamics᠂ 31(1)123-134᠂ 2008 | |||
(ᠵᠤᠤᠪᠠᠩ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠳᠠᠬᠢ ᠵᠠᠯᠭᠠᠭᠳᠠᠭᠰᠠᠨ ᠬᠥᠯᠭᠡ ᠨᠦᠭᠦᠳ ᠦᠨ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠤᠨ ᠬᠠᠷᠢᠴᠠᠩᠭᠤᠢ ᠭᠧᠣᠮᠡᠲ᠋ᠷ ᠢ ᠰᠤᠳᠤᠯᠤᠭᠰᠠᠨ ᠠᠨᠤ) | |||
16. Liu᠂ X; Baoyin᠂ H; Ma᠂ X; Five special types of orbits around Mars᠂ Journal of guidance᠂ control᠂ and dynamics᠂ 33(4)1294-1301᠂ 2010 | |||
(ᠠᠩᠭᠠᠷᠠᠭ ᠭᠠᠷᠠᠭ ᠤᠨ ᠣᠷᠴᠢᠨ ᠤ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠤᠳ ᠤᠨ ᠲᠠᠪᠤᠨ ᠣᠨᠴᠠᠭᠠᠢ ᠲᠥᠷᠥᠯ) | |||
17. Gong᠂ S; Li᠂ J; Baoyin᠂ H; Formation flying solar-sail gravity tractors in displaced orbit for towing near-earth asteroids᠂ Celestial Mechanics and Dynamical Astronomy᠂ 105(1)159-177᠂ 2009 | |||
(ᠳᠡᠯᠡᠬᠡᠢ ᠣᠷᠴᠢᠮ ᠤᠨ ᠠᠰᠲ᠋ᠸᠷᠣᠶ᠋ᠢᠳ᠋᠍ ᠢ ᠴᠢᠷᠬᠦ ᠵᠣᠷᠢᠯᠭᠠ ᠪᠠᠷ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠳᠤ ᠨᠠᠷᠠᠨ ᠤ ᠬᠠᠪᠲᠠᠩ ᠪᠦᠬᠦᠢ ᠬᠥᠯᠭᠡ ᠨᠦᠭᠦᠳ ᠢ ᠵᠠᠯᠭᠠᠵᠤ ᠤᠭᠰᠠᠷᠠᠬᠤ ᠠᠨᠤ) | |||
18. Zhou᠂ X; Li᠂ J; Baoyin᠂ H; Equilibrium control of electrodynamic tethered satellite systems in inclined orbits᠂ Journal of guidance᠂ control᠂ and dynamics᠂ 29(6)1451-1454᠂ 2006 | |||
(ᠬᠡᠯᠪᠡᠶ᠋ᠢᠯᠲᠡ ᠲᠡᠢ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠳᠠᠬᠢ ᠬᠢᠮᠡᠯ ᠳᠠᠭᠠᠭᠤᠯᠢ ᠶᠢᠨ ᠴᠠᠬᠢᠯᠭᠠᠨ - ᠳ᠋ᠨᠠᠮᠢᠻ ᠤᠭᠰᠠᠷᠠᠮᠠᠯ ᠪᠦᠲᠦᠴᠡ ᠶᠢᠨ ᠲᠡᠩᠴᠡᠪᠦᠷᠢᠵᠢᠯᠲᠡ ᠶᠢᠨ ᠬᠢᠨᠠᠯᠲᠠ) | |||
19. Xue᠂ D; Li᠂ J; Baoyin᠂ H; Jiang᠂ F; Reachable domain for spacecraft with a single impulse᠂ Journal of guidance᠂ control᠂ and dynamics᠂ 33(3) 934-942᠂ 2010 | |||
(ᠭᠠᠭᠴᠠ ᠢᠮᠫᠦ᠋ᠯᠰ ᠪᠦᠬᠦᠢ ᠣᠭᠲᠠᠷᠭᠤᠢ ᠢᠢᠨ ᠬᠥᠯᠭᠡ ᠬᠥᠷᠬᠦᠶ᠋ᠢᠴᠡ ᠣᠷᠤᠨ ᠵᠠᠢ) | |||
20. Gao᠂ Y; Baoyin᠂ H; Li᠂ J; Comparison of two methods in satellite formation flying ᠂ APPLIED MATHEMATICS AND MECHANICS᠂ 24(8)902-908᠂ 2003 | |||
(ᠬᠢᠮᠡᠯ ᠳᠠᠭᠠᠭᠤᠯᠢ ᠢᠢᠨ ᠵᠠᠯᠭᠠᠮᠠᠯ ᠪᠦᠲᠦᠴᠡ ᠢᠢᠨ ᠬᠣᠶᠠᠷ ᠠᠷᠭᠠ ᠢᠢ ᠬᠠᠷᠢᠴᠠᠭᠤᠯᠤᠭᠰᠠᠨ ᠠᠨᠤ) | |||
21. Jiang᠂ F; Li᠂ J; Baoyin᠂ H; Approximate analysis for relative motion of satellite formation flying in elliptical orbits᠂ Celestial Mechanics and Dynamical Astronomy᠂ 98(1)31-66᠂ 2007 | |||
(ᠵᠤᠤᠪᠠᠩ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠳ᠋ᠠᠬᠢ ᠵᠠᠯᠭᠠᠭᠳᠠᠭᠰᠠᠨ ᠬᠢᠮᠡᠯ ᠳᠠᠭᠠᠭᠤᠯᠢ ᠢᠢᠨ ᠬᠠᠷᠢᠴᠠᠩᠭᠤᠢ ᠬᠥᠳᠡᠯᠭᠡᠭᠡᠨ ᠦ ᠪᠠᠷᠢᠮᠵᠢᠶᠠ ᠰᠢᠨᠵᠢᠯᠡᠭᠡ) | |||
22. Yuan᠂ C; Li᠂ J; Wang᠂ T; Baoyin᠂ Hi; Robust attitude control for rapid multi-target tracking in spacecraft formation flying᠂ Applied mathematics and mechanics᠂ 29()185-198᠂ 2008 | |||
(ᠬᠥᠯᠭᠡ ᠨᠤᠭᠦᠳ ᠦᠨ ᠵᠠᠯᠭᠠᠭᠳᠠᠭᠰᠠᠨ ᠪᠦᠲᠦᠴᠡ ᠨᠤᠭᠦᠳ ᠳᠦ ᠣᠯᠠᠨ ᠵᠣᠷᠢᠯᠲᠠ ᠢᠢ ᠮᠥᠰᠭᠢᠬᠦ ᠲᠣᠭᠲᠠᠪᠤᠷᠢ ᠲᠠᠢ ᠬᠡᠯᠪᠡᠢᠢᠯᠲᠡ ᠢᠢᠨ ᠬᠢᠨᠠᠯᠲᠠ) | |||
23. Gong᠂ S; Baoyin᠂ H; Li᠂ J; Solar sail formation flying around displaced solar orbits᠂ Journal of guidance᠂ control᠂ and dynamics᠂ 30(4)1148-1152᠂ 2007 | |||
(ᠨᠠᠷᠠᠨ ᠤ ᠲᠣᠭᠤᠷᠢᠭ ᠵᠠᠮ ᠳᠠᠬᠢ ᠨᠠᠷᠠᠨ ᠤ ᠬᠠᠪᠲᠠᠩ ᠤᠳ ᠤᠨ ᠵᠠᠯᠭᠠᠭᠳᠠᠭᠰᠠᠨ ᠪᠦᠲᠦᠴᠡ) | |||
24. Liu᠂ X; Baoyin᠂ H; Ma᠂ X; Equilibria᠂ periodic orbits around equilibria᠂ and heteroclinic connections in the gravity field of a rotating homogeneous cube᠂ Astrophysics and Space Science᠂ 333(2)409-418᠂ 2011 | |||
(ᠲᠡᠩᠴᠡᠪᠦᠷᠢᠵᠢᠯᠲᠡ᠂ ᠲᠡᠩᠴᠡᠪᠦᠷᠢᠵᠢᠯᠲᠡ ᠶᠢ ᠲᠣᠭᠣᠷᠢᠭᠰᠠᠨ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ᠂ ᠡᠷᠭᠢᠯᠳᠦᠵᠦ ᠪᠤᠢ ᠵᠢᠭᠳᠡ ᠪᠦᠲᠦᠴᠡ ᠲᠡᠢ ᠱᠣ᠋ ᠶᠢᠨ ᠲᠠᠲᠠᠯᠴᠠᠯ ᠤᠨ ᠣᠷᠣᠨ ᠤ ᠲᠡᠩᠴᠡᠪᠦᠷᠢᠵᠢᠯᠲᠡ ᠶᠢᠨ ᠴᠡᠭ ᠦᠳ ᠦᠨ ᠬᠣᠯᠪᠣᠭᠠᠰᠤ) | |||
25. Jiang᠂ F; Li᠂ J; Baoyin᠂ H; Two-point boundary value problem solutions to spacecraft formation flying᠂ Journal of guidance᠂ control᠂ and dynamics᠂ 32(6)1827-1837᠂ 2009 | |||
(ᠵᠠᠯᠭᠠᠭᠳᠠᠭᠰᠠᠨ ᠣᠭᠲᠠᠷᠭᠤᠢ ᠶᠢᠨ ᠬᠥᠯᠭᠡ ᠶᠢᠨ ᠬᠣᠶᠠᠷ ᠴᠡᠭ ᠲᠦ ᠬᠢᠯᠢ ᠬᠢᠵᠠᠭᠠᠷ ᠤᠨ ᠤᠳᠬᠠ ᠶᠢ ᠤᠯᠬᠤ) | |||
26. Liu᠂ X; Baoyin᠂ H; Ma᠂ X; Periodic orbits in the gravity field of a fixed homogeneous cube᠂ Astrophysics and Space Science᠂ 334(2)357-364᠂ 2011 | |||
(ᠵᠢᠭᠳᠡ ᠪᠦᠲᠦᠴᠡ ᠲᠡᠢ ᠱᠣ᠋ ᠶᠢᠨ ᠲᠠᠲᠠᠯᠴᠠᠯ ᠤᠨ ᠣᠷᠣᠨ ᠳᠠᠬᠢ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ) | |||
27. Zhu᠂ K; Jiang᠂ F; Li᠂ J; Baoyin᠂ H; Trajectory optimization of multi-asteroids exploration with low thrust᠂ Japan Society of Aeronautical Space Sciences Transactions᠂ 52()47-54᠂ 2009 | |||
(ᠨᠠᠮ ᠲᠡᠶ᠋ᠢᠷᠦᠯᠲᠡᠲᠦ ᠬᠥᠯᠭᠡ ᠪᠡᠷ ᠬᠢᠬᠦ ᠣᠯᠠᠨ ᠠᠰᠲ᠋ᠸᠷᠣᠶ᠋ᠢᠳ᠋ ᠤᠨ ᠰᠤᠳᠤᠯᠭᠠᠨ ᠤ ᠵᠠᠮᠨᠠᠯ ᠢ ᠣᠨᠣᠪᠴᠢᠯᠠᠬᠤ ᠠᠨᠤ) | |||
28. Zeng᠂ X; Baoyin᠂ H; Li᠂ J; New applications of the H-reversal trajectory using solar sails᠂ Research in Astronomy and Astrophysics᠂ 11 7᠂ 863-᠂2011 | |||
(ᠨᠠᠷᠠᠨ ᠤ ᠳᠠᠯᠪᠠᠭᠠ ᠠᠰᠢᠭᠯᠠᠭᠰᠠᠨ H - ᠤᠷᠪᠠᠭᠤ ᠵᠠᠮᠨᠠᠯ ᠤᠨ ᠰᠢᠨᠡ ᠬᠡᠷᠡᠭᠯᠡᠭᠡ) | |||
29. Baoyin᠂ H; Chen᠂ Y; Li᠂ J; Capturing near earth objects᠂ Research in Astronomy and Astrophysics᠂ 10(6)587-᠂2010 | |||
(ᠳᠡᠯᠡᠬᠡᠢ ᠣᠷᠴᠢᠮ ᠤᠨ ᠪᠡᠶᠡᠲᠦ ᠨᠦᠭᠦᠳ ᠢ ᠪᠠᠷᠢᠬᠤ) | |||
30. Yu᠂ Y; Baoyin᠂ H; Generating families of 3D periodic orbits about asteroids᠂ Monthly Notices of the Royal Astronomical Society᠂ 427(1)872-881᠂ 2012 | |||
(ᠠᠰᠲ᠋ᠸᠷᠣᠶ᠋ᠢᠳ᠋ ᠤᠨ ᠤᠷᠴᠢᠨ ᠳᠤ ᠭᠤᠷᠪᠠᠨ ᠬᠡᠮᠵᠢᠭᠳᠡᠬᠦᠨᠲᠦ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠤᠳ ᠢ ᠡᠭᠦᠰᠭᠡᠬᠦ ᠢᠨᠦ) | |||
31. Gong᠂ S; Li᠂ J; Baoyin᠂ H; Formation reconfiguration in restricted three body problem ᠂ Acta Mechanica Sinica᠂ 23(3)321-328᠂ 2007 | |||
(ᠬᠢᠵᠠᠭᠠᠷᠯᠠᠭᠳᠠᠮᠠᠯ ᠭᠤᠷᠪᠠᠨ ᠪᠡᠶᠡᠲᠦ ᠶᠢᠨ ᠵᠠᠯᠭᠠᠭᠳᠠᠬᠤ ᠬᠡᠯᠪᠡᠷᠢᠰᠢᠯ ᠢ ᠥᠭᠡᠷᠡᠴᠢᠯᠡᠬᠦ ᠨᠢ) | |||
32. Liu᠂ X; Baoyin᠂ H; Ma᠂ X; Extension of the critical inclination᠂ Astrophysics and Space Science᠂ 334(1)115-124᠂ 2011 | |||
(ᠡᠭᠡᠵᠢᠭᠲᠡᠢ ᠬᠡᠯᠪᠡᠶ᠋ᠢᠯᠲᠡ ᠲᠡᠯᠡᠬᠦ ᠢᠨᠦ) | |||
33. Gong᠂ S; Li᠂ J; Baoyin᠂ H; Formation around planetary displaced orbit᠂ Applied Mathematics and Mechanics᠂ 28()759-767᠂ 2007 | |||
(ᠭᠠᠷᠠᠭ ᠤᠨ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠳᠤ ᠬᠥᠯᠭᠡ ᠨᠦᠭᠦᠳ ᠢ ᠵᠠᠯᠭᠠᠨ ᠤᠭᠰᠠᠷᠠᠬᠤ) | |||
34. Gong᠂ S; Li᠂ J; Baoyin᠂ H; Analysis of displaced solar sail orbits with passive control᠂ Journal of guidance᠂ control᠂ and dynamics᠂ 31(3)782-785᠂ 2008 | |||
(ᠢᠳᠡᠪᠬᠢ ᠦᠭᠡᠢ ᠤᠳᠤᠷᠢᠳᠤᠯᠭᠠ ᠲᠠᠢ ᠨᠠᠷᠠᠨ ᠤ ᠳᠠᠯᠪᠠᠭᠠᠨ ᠤ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠤᠨ ᠰᠢᠨᠵᠢᠯᠡᠭᠡ) | |||
35. Yu᠂ Y; Baoyin᠂ H; Resonant orbits in the vicinity of asteroid 216 Kleopatra᠂ Astrophysics and Space Science᠂ 343(1)75-82᠂ 2013 | |||
(216 ᠻ᠊ᠯᠧᠣᠫᠠᠲ᠋ᠷᠠ ᠠᠰᠲ᠋ᠧᠷᠣᠶ᠋ᠢᠳ᠋ ᠤᠨ ᠣᠷᠴᠢᠨ ᠳᠠᠬᠢ ᠷᠧᠰᠣᠨᠠᠨ᠍ᠲ ᠲᠣᠭᠤᠷᠢᠭ ᠵᠠᠮ) | |||
36. Gong᠂ S; Baoyin᠂ H; Li᠂ J; Coupled attitude–orbit dynamics and control for displaced solar orbits᠂ Acta Astronautica᠂ 65(5)730-737᠂ 2009 | |||
(ᠬᠣᠣᠰᠯᠠᠨ ᠬᠡᠯᠪᠡᠶ᠋ᠢᠯᠲᠡ ᠲᠡᠢ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠤᠨ ᠳ᠋ᠢᠨᠠᠮᠢᠻ᠂ ᠨᠠᠷᠠᠨ ᠤ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠤᠨ ᠬᠢᠨᠠᠯᠲᠠ) | |||
37. Guo᠂ T; Jiang᠂ F; Baoyin᠂ H; Fuel optimal low thrust rendezvous with outer planets via gravity assist᠂ Science China Physics᠂ Mechanics and Astronomy᠂ 54(4)756-769᠂ 2011 | |||
(ᠲᠠᠲᠠᠬᠤ ᠬᠦᠴᠦᠨ ᠢ ᠠᠰᠢᠭᠯᠠᠨ ᠭᠠᠳᠠᠭᠠᠳᠤ ᠭᠠᠷᠠᠭ ᠤᠳ ᠲᠤ ᠨᠠᠮ ᠲᠡᠶ᠋ᠢᠷᠦᠯᠲᠡ ᠲᠡᠢ ᠬᠦᠷᠬᠦ ᠰᠢᠲᠠᠬᠤᠨ ᠤ ᠣᠨᠣᠪᠴᠢᠯᠠᠯ) | |||
38. Chen᠂ Y; Baoyin᠂ H; Li᠂ J; Trajectory design for the Moon departure libration point mission in full ephemeris model᠂ Science China Technological Sciences᠂ 54(11)2924-2934᠂ 2011 | |||
(ᠰᠠᠷᠠᠨ ᠠᠴᠠ ᠬᠥᠭᠡᠷᠬᠦ ᠲᠡᠩᠴᠡᠪᠦᠷᠢᠵᠢᠯ ᠦᠨ ᠴᠡᠭ ᠦᠨ ᠵᠠᠮᠨᠠᠯ ᠤᠨ ᠲᠣᠭᠠᠴᠠᠭᠠ) | |||
39. Zhu᠂ K; Li᠂ J; Baoyin᠂ H; Multi-swingby optimization of mission to Saturn using global optimization algorithms᠂ Acta Mechanica Sinica᠂ 25(6)839-845᠂ 2009 | |||
(ᠣᠨᠣᠪᠴᠢᠯᠠᠯ ᠤᠨ ᠲᠦᠭᠡᠮᠡᠯ ᠠᠯᠭᠣᠷᠢᠲ᠋ᠮ ᠢᠢᠠᠷ ᠰᠠᠨᠢᠴᠠᠷ ᠭᠠᠷᠠᠭ ᠤᠨ ᠨᠢᠰᠦᠯᠭᠡ ᠶᠢ ᠣᠨᠣᠪᠴᠢᠯᠠᠬᠤ ᠠᠨᠤ) | |||
40. Wang᠂ J; Baoyin᠂ H; Li᠂ J; Optimal four-impulse rendezvous between coplanar elliptical orbits᠂ Science China Physics᠂ Mechanics and Astronomy᠂ 54(4)792-802᠂ 2011 | |||
(ᠨᠢᠭᠡᠨ ᠬᠠᠪᠲᠠᠭᠠᠢ ᠳᠠᠬᠢ ᠵᠤᠤᠪᠠᠩ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠤᠨ ᠬᠣᠭᠣᠷᠣᠨᠳᠣ ᠳᠥᠷᠪᠡᠨ ᠢᠮᠫᠦ᠋ᠯᠰ ᠪᠦᠬᠦᠢ ᠨᠢᠰᠦᠯᠭᠡ) | |||
41. Yu᠂ Y; Baoyin᠂ H; Li᠂ J; Dynamic modelling and analysis of space webs᠂ Science China Physics᠂ Mechanics and Astronomy᠂ 54(4)783-791᠂ 2011 | |||
(ᠣᠭᠲᠠᠷᠭᠤᠢ ᠶᠢᠨ ᠲᠣᠣᠷᠤᠨ ᠤ ᠳ᠋ᠢᠨᠠᠮᠢᠻ ᠵᠠᠭᠪᠤᠷᠴᠢᠯᠠᠯ᠂ ᠰᠢᠨᠵᠢᠯᠡᠭᠡ) | |||
42. Liu᠂ X; Baoyin᠂ H; Ma᠂ X; Analytical investigations of quasi-circular frozen orbits in the Martian gravity field᠂ Celestial Mechanics and Dynamical Astronomy᠂ 109(3)303-320᠂ 2011 | |||
(ᠠᠩᠭᠠᠷᠠᠭ ᠭᠠᠷᠠᠭ ᠤᠨ ᠲᠠᠲᠠᠯᠴᠠᠯ ᠤᠨ ᠣᠷᠣᠨ ᠳᠠᠬᠢ ᠲᠣᠭᠣᠷᠢᠭ ᠲᠥᠰ ᠲᠦ ᠬᠥᠯᠳᠡᠭᠦᠦ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠤᠳ ᠤᠨ ᠰᠢᠨᠵᠢᠯᠡᠭᠡ ᠰᠤᠳᠤᠯᠭᠠ) | |||
43. Liu᠂ X; Baoyin᠂ H; Ma᠂ X; Long-term perturbations due to a disturbing body in elliptic inclined orbit ᠂ Astrophysics and Space Science᠂ 339(2)295-304᠂ 2012 | |||
(ᠬᠡᠯᠪᠡᠶ᠋ᠢᠯᠲᠡ ᠲᠡᠢ ᠵᠤᠤᠪᠠᠩ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠳᠠᠬᠢ ᠬᠥᠨᠳᠡᠯᠡᠩ ᠦᠨ ᠪᠡᠶᠡᠲᠦ ᠶᠢᠨ ᠨᠥᠯᠥᠭᠡ ᠪᠡᠷ ᠤᠷᠲᠤ ᠬᠤᠭᠤᠴᠠᠭᠠᠨ ᠤ ᠦᠢᠮᠡᠴᠡᠯ ᠡᠭᠦᠰᠬᠦ ᠢᠨᠦ) | |||
44. Chen᠂ Y; Baoyin᠂ H; Li᠂ J; Design and optimization of a trajectory for Moon departure Near Earth Asteroid exploration᠂ Science China Physics᠂ Mechanics and Astronomy᠂ 54(4)748-755᠂ 2011 | |||
(ᠰᠠᠷᠠᠨ ᠠᠴᠠ ᠬᠥᠭᠡᠷᠡᠵᠦ ᠳᠡᠯᠡᠬᠡᠢ ᠣᠷᠴᠢᠮ ᠤᠨ ᠠᠰᠲ᠋ᠸᠷᠣᠶ᠋ᠢᠳ᠋ ᠢ ᠰᠤᠳᠤᠯᠬᠤ ᠵᠠᠮᠨᠠᠯ ᠢ ᠲᠣᠳᠣᠷᠬᠠᠶ᠋ᠢᠯᠠᠬᠤ᠂ ᠣᠨᠣᠪᠴᠢᠯᠠᠬᠤ) | |||
45. Gong᠂ S; Baoyin᠂ H; Li᠂ J; Multi-satellite reconfiguration of formation around libration point᠂ Japan Society of Aeronautical Space Sciences Transactions᠂ 51᠂ 213-219᠂ 2009 | |||
(ᠣᠯᠠᠨ ᠬᠢᠮᠡᠯ ᠳᠠᠭᠠᠭᠤᠯᠢ ᠶᠢᠨ ᠤᠭᠰᠠᠷᠠᠭᠠ ᠪᠦᠲᠦᠴᠡ ᠶᠢᠨ ᠬᠡᠯᠪᠡᠷᠢᠰᠢᠯ ᠢ ᠲᠡᠩᠴᠡᠯ ᠢᠢᠨ ᠴᠡᠭ ᠲᠦ ᠰᠢᠨᠡᠴᠢᠯᠡᠨ ᠥᠭᠡᠷᠡᠴᠢᠯᠡᠬᠦ) | |||
46. Gong᠂ S; Baoyin᠂ H; Li᠂ J; Solar sail three-body transfer trajectory design᠂ Journal of guidance᠂ control᠂ and dynamics᠂ 33(3)873-886᠂ 2010 | |||
(ᠨᠠᠷᠠᠨ ᠤ ᠬᠠᠪᠲᠠᠩ ᠲᠠᠢ ᠭᠤᠷᠪᠠᠨ ᠪᠡᠶᠡᠲᠦ ᠶᠢᠨ ᠵᠠᠮᠨᠠᠯ ᠢ ᠪᠣᠯᠪᠠᠰᠤᠷᠠᠭᠤᠯᠤᠭᠰᠠᠨ ᠠᠨᠤ) | |||
47. Liu᠂ X; Baoyin᠂ H; Ma᠂ X; Optimal path planning of redundant free-floating revolute-jointed space manipulators with seven links᠂ Multibody System Dynamics᠂ 29(1)41-56᠂ 2013 | |||
(ᠳᠣᠯᠣᠭᠠᠨ ᠵᠠᠯᠭᠠᠭᠠᠰᠤ ᠲᠠᠢ᠂ ᠴᠢᠯᠦᠭᠡᠲᠡᠢ ᠬᠥᠪᠬᠦ ᠡᠷᠭᠢᠯᠲᠡᠲᠦ ᠬᠣᠯᠪᠣᠭᠠᠰᠤ ᠲᠠᠢ ᠣᠭᠲᠠᠷᠭᠤᠢ ᠪᠦᠲᠦᠴᠡ ᠶᠢᠨ ᠣᠨᠣᠪᠴᠢᠲᠠᠢ ᠵᠠᠮᠨᠠᠯ ᠤᠨ ᠲᠥᠯᠥᠪᠯᠡᠯᠲᠡ) | |||
48. Liu᠂ X; Baoyin᠂ H; Ma᠂ X; Periodic orbits around areostationary points in the Martian gravity field᠂ Research in Astronomy and Astrophysics᠂ 12(5)551-᠂2012 | |||
(ᠠᠩᠭᠠᠷᠠᠭ ᠭᠠᠷᠠᠭ ᠤᠨ ᠲᠠᠲᠠᠯᠴᠠᠯ ᠤᠨ ᠣᠷᠣᠨ ᠳᠠᠬᠢ ᠰᠲ᠋ᠠᠼᠢᠶᠣᠨᠠᠷ ᠴᠡᠭ ᠦᠳ ᠢ ᠲᠦᠰᠢᠭᠯᠡᠭᠰᠡᠨ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠤᠳ) | |||
49. Gong᠂ S; Li᠂ J; Baoyin᠂ H; Transfer trajectories design for a variable lightness solarcraft᠂ Journal of Spacecraft and Rockets᠂ 46(4)836-844᠂ 2009 | |||
(ᠬᠤᠪᠢᠰᠬᠤ ᠭᠡᠷᠡᠯᠲᠦᠭᠦᠯᠭᠡ ᠲᠡᠢ ᠨᠠᠷᠠᠨ ᠤ ᠬᠥᠯᠭᠡ ᠶᠢᠨ ᠵᠠᠮᠨᠠᠯ ᠢ ᠲᠣᠳᠣᠷᠬᠠᠶ᠋ᠢᠯᠠᠬᠤ ᠨᠢ) | |||
50. Baoyin᠂ H; Liu᠂ X; Beauvalet᠂ L; Analysis of potential locations of asteroidal moonlets᠂ Monthly Notices of the Royal Astronomical Society᠂ 430(4)3483-3488᠂ 2013 | |||
(ᠠᠰᠲ᠋ᠸᠷᠣᠶ᠋ᠢᠳ᠋᠍ ᠤᠨ ᠰᠠᠷᠠᠨᠴᠢᠷ ᠤᠳ ᠤᠨ ᠪᠣᠯᠤᠮᠵᠢᠲᠤ ᠪᠠᠶ᠋ᠢᠷᠢᠰᠢᠯ ᠤᠨ ᠰᠢᠨᠵᠢᠯᠡᠭᠡ) | |||
51. Zeng᠂ X; Baoyin᠂ H; Li᠂ J; Feasibility analysis of the angular momentum reversal trajectory via hodograph method for high performance solar sails᠂ Science China Technological Sciences᠂ 54(11)2951-2957᠂ 2011 | |||
(ᠥᠨᠳᠥᠷ ᠦᠷᠡ ᠠᠰᠢᠭ ᠲᠠᠢ ᠨᠠᠷᠠᠨ ᠤ ᠬᠠᠪᠲᠠᠩ ᠤᠨ ᠥᠨᠴᠥᠭ ᠦᠨ ᠮᠣᠮᠧᠨ᠍ᠲ ᠲᠠᠢ ᠤᠷᠪᠠᠭᠤ ᠵᠠᠮᠨᠠᠯ ᠤᠨ ᠲᠣᠭᠠᠴᠠᠭᠠ ᠰᠤᠳᠤᠯᠭᠠ) | |||
52. Gong᠂ S; Baoyin᠂ H; Li᠂ J; Relative orbit design and control of formation around displaced solar orbits᠂ Aerospace Science and Technology᠂ 12(2)195-201᠂ 2008 | |||
(ᠨᠠᠷᠠᠨ ᠤ ᠪᠠᠶ᠋ᠢᠷᠢᠰᠢᠯ ᠭᠠᠵᠢᠭᠰᠠᠨ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠳᠠᠬᠢ ᠤ ᠲᠣᠭᠣᠷᠢᠭ ᠵᠠᠮ ᠤᠨ ᠪᠣᠯᠪᠠᠰᠤᠷᠠᠭᠤᠯᠤᠯᠲᠠ᠂ ᠬᠥᠯᠭᠡ ᠨᠦᠭᠦᠳ ᠤᠭᠰᠠᠷᠠᠯᠳᠤᠬᠤ ᠬᠢᠨᠠᠯᠲᠠ) | |||
53. Zeng᠂ X; Baoyin᠂ H; Li᠂ J; Three-dimensional time optimal double angular momentum reversal trajectory using solar sails᠂ Celestial Mechanics and Dynamical Astronomy᠂ 111(4)415-430᠂ 2011 | |||
(ᠨᠠᠷᠠᠨ ᠤ ᠳᠠᠯᠪᠠᠭᠠ ᠠᠰᠢᠭᠯᠠᠭᠰᠠᠨ ᠭᠤᠷᠪᠠᠨ ᠬᠡᠮᠵᠢᠶᠡᠰᠦᠲᠦ᠂ ᠴᠠᠭ ᠢ ᠣᠨᠣᠪᠴᠢᠯᠠᠭᠰᠠᠨ᠂ ᠬᠣᠣᠰ ᠥᠨᠴᠥᠭ ᠦᠨ ᠮᠣᠮᠧᠨ᠍ᠲ ᠲᠠᠢ ᠪᠤᠴᠠᠬᠤ ᠵᠠᠮᠨᠠᠯ) | |||
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