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A robust momentum management and attitude control system for the space station

机译：强大的空间站动量管理和姿态控制系统

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A game theoretic controller is synthesized for momentum management and attitude control of the Space Station in the presence of uncertainties in the moments of inertia. Full state information is assumed since attitude rates are assumed to be very assurately measured. By an input-output decomposition of the uncertainty in the system matrices, the parameter uncertainties in the dynamic system are represented as an unknown gain associated with an internal feedback loop (IFL). The input and output matrices associated with the IFL form directions through which the uncertain parameters affect system response. If the quadratic form of the IFL output augments the cost criterion, then enhanced parameter robustness is anticipated. By considering the input and the input disturbance from the IFL as two noncooperative players, a linear-quadratic differential game is constructed. The solution in the form of a linear controller is used for synthesis. Inclusion of the external disturbance torques results in a dynamic feedback controller which consists of conventional PID (proportional integral derivative) control and cyclic disturbance rejection filters. It is shown that the game theoretic design allows large variations in the inertias in directions of importance.

机译：在惯性矩存在不确定性的情况下，综合了一种博弈论控制器，用于空间站的动量管理和姿态控制。假定状态信息被假定为非常可靠地测量，因此可以假定为完整的状态信息。通过系统矩阵中不确定性的输入输出分解，动态系统中的参数不确定性表示为与内部反馈环路（IFL）相关的未知增益。与IFL相关的输入和输出矩阵形成方向，不确定参数通过这些方向影响系统响应。如果IFL输出的二次形式增加了成本标准，则可以预期增强的参数鲁棒性。通过将IFL的输入和输入扰动视为两个非合作参与者，构建了线性二次差分博弈。线性控制器形式的解决方案用于合成。包含外部干扰转矩会导致动态反馈控制器，该控制器由常规PID（比例积分微分）控制和周期性干扰抑制滤波器组成。结果表明，博弈论设计允许惯性在重要方向上发生较大变化。

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Speyer J. L.; Rhee Ihnseok;
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年度 1991
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1. 利用能量/动量飞轮的偏置动量姿态控制系统 [J] . 贾英宏, 徐世杰, 汤亮中国航空学报（英文版） . 2004,第004期
2. Robust controllers for space station momentum management [J] . Elgersma M.R., Stein G. IEEE Control Systems Magazine . 1992,第5期

机译：用于空间站动量管理的强大控制器
3. Integrated Adaptive Control of Attitude and Momentum for Space Station [J] . Shincy Sainudeen, Soumya N, Sreeja S IFAC PapersOnLine . 2020,第1期

机译：集成自适应控制空间站态度和动量
4. Investigation of the dynamics of angular motion and construction of algorithms for controlling the angular momentum of spacecraft using a magnetic attitude control system [J] . Egorov Yu. G., Kulkov V. M., Terentyev V. V., Doklady. Physics . 2016,第11期

机译：角运动动力学的研究和使用磁姿态控制系统控制航天器角动量的算法的构建
5. Robust Output Regulation Approach for Attitude Control and Momentum Management of the Space Station [C] . Yong Liu, Wei Huo International Conference on Materials and Engineering Technology . 2015

机译：空间站姿态控制和动力管理的强大产出调节方法
6. Multistage design of an optimal momentum management and attitude controller for the space station [D] . Sunkel, John William 1990

机译：用于空间站的最佳动量管理和姿态控制器的多级设计
7. A Novel Robust H∞ Filter Based on Krein Space Theory in the SINS/CNS Attitude Reference System [O] . Fei Yu, Chongyang Lv, Qianhui Dong 2016

机译：SINS / CNS姿态参考系统中基于Kerin空间理论的新型鲁棒H∞滤波器
8. 3D Attitude Model Predictive Control and Validation of Robustness for a 3D Space Robot of Two Rigid Bodies with Initial Angular Momentum [O] . Tatsuya KAI, Katsunori KONDOU 2010

机译：3D态度模型预测控制和两个刚性体的3D空间机器人具有初始角动量的3D空间机器人的验证
9. A robust momentum management and attitude control system for the space station [R] . Speyer, J. L., Rhee, Ihnseok 1991

机译：一种强大的空间站动量管理和姿态控制系统

A robust momentum management and attitude control system for the space station

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