Stabilization of Spacecraft Flight in Halo Orbits: An H{sub}∞ Approach

Jayant E. Kulkarni; Mark E. Campbell; Geir E. Dullerud

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Stabilization of Spacecraft Flight in Halo Orbits: An H{sub}∞ Approach

机译：晕圈中航天器飞行的稳定化：H {sub}∞方法

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The problem of stabilizing the motion of a spacecraft in an unstable orbit around the interior Sun-Earth libration point (L{sub}1) is addressed in this paper. Modern control techniques, which extend the traditional H{sub}∞ framework to periodic discrete linear time-varying systems, are employed in the solution of the problem. Nonlinear simulation results are presented and it is shown that the control effort required can be provided by next-generation electric propulsion systems.

机译：本文讨论了稳定航天器在内部太阳地球自由点（L {sub} 1）周围的不稳定轨道中运动的问题。解决这一问题的方法是采用现代控制技术，它将传统的H {sub}∞框架扩展到周期性离散线性时变系统。给出了非线性仿真结果，结果表明，下一代电动推进系统可以提供所需的控制效果。

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《IEEE Transactions on Control Systems Technology》 |2006年第3期|p.572-578|共7页
作者
Jayant E. Kulkarni; Mark E. Campbell; Geir E. Dullerud;
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正文语种 eng
中图分类电力系统的模拟与计算;自动控制理论;
关键词
H{sub}∞ optimal control; Halo orbits; Periodic linear time-varying systems;

机译：H {sub}∞最优控制;晕圈;周期线性时变系统;

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专利

1. Chance-constrained Model Predictive Control for Near Rectilinear Halo Orbit spacecraft rendezvous [J] . Aerospace science and technology . 2020,第May期

机译：近直线光晕轨道航天器交会的机会约束模型预测控制
2. Optical tracking of deep-space spacecraft in Halo L2 orbits and beyond: The Gaia mission as a pilot case [J] . Alberto Buzzoni, Giuseppe Altavilla, Silvia Galleti Advances in space research . 2016,第7期

机译：Halo L2轨道及其以外地区的深空航天器的光学跟踪：以盖亚飞行器为试验案例
3. Attitude stability analysis of a dual-spin spacecraft in halo orbits [J] . Yunhe Meng, Rui Hao, Qifeng Chen Acta astronautica . 2014,第junaajula期

机译：双旋航天器在晕圈中的姿态稳定性分析
4. Asymptotic stabilization of motion about an unstable orbit: application to spacecraft flight in Halo orbit [C] . Kulkarni, J., Campbell, . 2004

机译：不稳定轨道运动的渐近稳定：在光晕轨道上的航天器飞行应用
5. A guidance and navigation system for two spacecraft rendezvous in translunar halo orbit. [D] . Jones, Brian Leigh. 1993

机译：跨月晕轨道上两个交会点的制导和导航系统。
6. Orbital Roof Fracture and Orbital Cellulitis Secondary to Halo Pin Penetration: Case Report [O] . K. Venugopal Menon, Asif Esam Al Rawi, Sawsan Taif, 2015

机译：晕针穿透继发眶顶骨折和眶蜂窝组织炎：病例报告
7. Maintenance of the Halo Orbit for a Spacecraft Using Discrete-time Optimal Control [O] . Yusuke SAKAI, Motohiro USAMI, Yasuaki OISHI 2018

机译：使用离散时间最佳控制维护航天器的Halo轨道

Stabilization of Spacecraft Flight in Halo Orbits: An H{sub}∞ Approach

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