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Near Real-Time Closed-Loop Optimal Control Feedback for Spacecraft Attitude Maneuvers

机译：航天器姿态机动的近实时闭环最优控制反馈

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Optimization of spacecraft attitude maneuvers can significantly reduce attitude control system size and mass, and extend satellite end-of-life. Optimal control theory has been applied to solve a variety of open-loop optimal control problems for terrestrial, air, and space applications. However, general application of real-time optimal controllers on spacecraft for large slew maneuvers has been limited because open-loop control systems are inherently vulnerable to error and the computation necessary to solve for an optimized control solution is resource intensive. This research effort is focused on developing a near real-time optimal control (RTOC) system for spacecraft attitude maneuvers on the Air Force Institute of Technology's 2nd generation simulated satellite, SimSat II. To meet the end goal of developing a RTOC controller, necessary preliminary steps were completed to accurately characterize SimSAT II's mass properties and attitude control system. Using DIDO, a pseudospectral-based optimal control solver package, to continuously solve and execute a sequence of optimized open-loop control solutions in near real-time, the RTOC controller can optimally control the state of the satellite over the course of a large angle slew maneuver. In this research, simulation and experimental results clearly demonstrate the benefit of RTOC versus other non-optimal control methods for the same maneuver.

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McFarland, C. D.;
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年度 2009
页码 p.1-149
总页数 149
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Feedback ; Maneuvers ; Attitude(Inclination) ; Spacecraft ; Theses ; Military satellites ; Closed loop systems ; Real time ; Thrusters ; Optimization ; Control;

机译：反馈;演习;态度（倾向）;航天器;论文;军事卫星;闭环系统;实时;推进器;优化;控制;

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1. Closed-Loop Time-Optimal Attitude Maneuvering of Magnetically Actuated Spacecraft [J] . Pooya Sekhavat, Hui Yan, Andrew Fleming, The Journal of the Astronautical Sciences . 2011,第1期

机译：磁驱动航天器的闭环时间最优姿态操纵
2. A time suboptimal method for real-time spacecraft attitude agile maneuvering with angular velocity constraint [J] . Wu Yun-Hua, Hu Ya-Bo, Hua Bing, Proceedings of the Institution of Mechanical Engineers . 2019,第2期

机译：角速度约束的实时航天器姿态敏捷机动的次优方法
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机译：通过使用时间最优/节油的成形输入来控制挠性航天器的姿态操纵
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机译：航天器姿态操纵的近实时闭环最优控制反馈
5. OPTIMAL NONLINEAR FEEDBACK CONTROL OF SPACECRAFT ATTITUDE MANEUVERS [D] . CARRINGTON, CONNIE KAY 1983

机译：航天器姿态姿态的最优非线性反馈控制
6. Development of a closed-loop feedback system for real-time control of a high-dimensional Brain Machine Interface [O] . David Putrino, Yan T. Wong, Mariana Vigeral, -1

机译：对于高维脑机接口的实时控制的闭环反馈系统的研制
7. Optimal nonlinear feedback control for spacecraft attitude maneuvers [O] . C. K. Carrington, J. L. Junkins 1986

机译：航天器姿态操纵的最佳非线性反馈控制

Near Real-Time Closed-Loop Optimal Control Feedback for Spacecraft Attitude Maneuvers

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