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Sub-Optimal Control of Rigid Spacecraft Reorientation Using Three Momentum Wheels

机译：基于三个动量轮的刚性航天器重定向的次优控制

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This thesis addresses sub-optimal employment of 3 momentum wheels for large anglereorientation of rigid spacecraft with minimal induced spacecraft motion during maneuvers. In addition to development of general theory for 3 wheel vehicles, simulation results for a vehicle using momentum wheels for secondary attitude control (GPS Block IIR) are compared to results for a vehicle using them for primary attitude control (the Hubble Space Telescope), to demonstrate practical applications and limitations. While the control laws were developed assuming no external perturbing torques on the vehicle, reorientation scenarios were run both in a torque free environment as well as an environment with simulated gravity gradient and solar pressure torques. The goal was primarily to show the growth of vehicle angular velocities and again demonstrate limitations of the derived control laws. The results indicate that for real spacecraft with limited wheel momentum storage capacities, there is a significant trade-off between maneuver times and required wheel torques, and that final state errors (angular velocities) increase with increasing wheel torques. Nonetheless, the simulations demonstrated that large angle maneuvers can be performed for both GPS Block lift and Hubble Space Telescope in reasonable times and with small angular velocities using the sub-optimal control law. However, gravity gradient and solar pressure torques tended to cause larger fluctuations in total angular momentum, angular velocities, and final state errors for the Hubble Space Telescope.

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作者
Schultz, G. W.;
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年度 1995
页码
总页数 159
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Attitude control systems; Spacecraft trajectories; Mathematical models; Computerized simulation; Optimization; Equations of motion; Parameters; Orientation(Direction); Theses; Error analysis; Wheels; Axisymmetric; Vector analysis; Gravity; Perturbations;

机译：姿态控制系统;航天器轨迹;数学模型;计算机模拟;优化;运动方程;参数;方向（方向）;论文;误差分析;车轮;轴对称;矢量分析;重力;扰动;

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1. Attitude control of a rigid spacecraft with two momentum wheel actuators using genetic algorithm [J] . Xin-Sheng Ge, Li-Qun Chen Acta astronautica . 2004,第1期

机译：具有两个动量轮执行器的刚性航天器的姿态控制
2. OPTIMAL MOTION PLANNING FOR A RIGID SPACECRAFT WITH TWO MOMENTUM WHEELS USING QUASI-NEWTON METHOD [J] . Ge Xinsheng, Zhang Qizhi, Chen Li-Qun Acta Mechanica Solida Sinica . 2006,第4期

机译：基于准牛顿法的带有两个动量轮的刚性航天器的最优运动规划
3. OPTIMAL MOTION PLANNING FOR A RIGID SPACECRAFT WITH TWO MOMENTUM WHEELS USING QUASI-NEWTON METHOD [J] . Ge, Xinsheng, Zhang, 固体力学学报：英文版 . 2006,第004期

机译：基于准牛顿法的带有两个动量轮的刚性空间游艇的最优运动规划
4. Rigid spacecraft attitude reorientation control using receding horizon optimization [C] . Li Peng, Yue Xiaokui, Luo Guangzhao, Chinese Control Conference . 2013

机译：使用后退水平优化的刚性航天器姿态重新定向控制
5. Reorientations of flexible spacecraft using momentum exchange devices. [D] . Ford, Kevin Anthony. 1997

机译：使用动量交换装置对挠性航天器进行重新定向。
6. A novel instrumented multipeg running wheel system Step-Wheel for monitoring and controlling complex sequential stepping in mice [O] . Takashi Kitsukawa, Masatoshi Nagata, Dai Yanagihara, -1

机译：一种新颖的装备有装备的多轮式跑步轮系统Step-Wheel用于监视和控制小鼠中的复杂顺序踏步
7. Attitude stabilization of a rigid spacecraft using two momentum wheel actuators [O] . Krishnan, Hariharan, McClamroch, N. Harris, Reyhanoglu, Mahmut 1995

机译：使用两个动量轮致动器稳定刚性航天器的姿态

Sub-Optimal Control of Rigid Spacecraft Reorientation Using Three Momentum Wheels

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