Adaptive Backstepping Attitude Control Law with L2-Gain Performance for Flexible Spacecraft

Rui-Qi Dong; Yu-Yao Wu; Ying Zhang; Ai-Guo Wu

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Adaptive Backstepping Attitude Control Law with L2-Gain Performance for Flexible Spacecraft

机译：适应性的反向姿态控制法，灵活的航天器L2-GAIN性能

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In this paper, an observer-based adaptive backstepping attitude maneuver controller (briefly, OBABC) for flexible spacecraft is presented. First, an observer is constructed to estimate the flexible modal variables. Based on the proposed observer, a backstepping control law is presented for the case where the inertia matrix is known. Further, an adaptive law is developed to estimate the unknown parameters of the inertia matrix of the flexible spacecraft. By utilizing Lyapunov theory, the proposed OBABC law can guarantee the asymptotical convergence of the closed-loop system in the presence of the external disturbance, incorporating with the L2-gain performance criterion constraint. Simulation results show that the attitude maneuver can be achieved by the proposed observer-based adaptive backstepping attitude control law.

机译：本文介绍了一种用于柔性航天器的观察者的自适应反伸位姿态操纵控制器（简要讨论）。首先，构建观察者以估计灵活的模态变量。基于所提出的观察者，给出了惯性矩阵所知的情况的反向控制法。此外，开发了一种自适应定律以估计柔性航天器的惯性矩阵的未知参数。通过利用Lyapunov理论，所提出的obabc法可以保证在存在外部干扰存在下闭环系统的渐近收敛，并包含L2增益性能标准约束。仿真结果表明，通过拟议的观察者的自适应反向姿态控制法可以实现姿态机动。

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《International journal of aerospace engineering》 |2019年第4期|共11页
作者
Rui-Qi Dong; Yu-Yao Wu; Ying Zhang; Ai-Guo Wu;
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1. Adaptive Backstepping Attitude Control Law with L_2-Gain Performance for Flexible Spacecraft [J] . Dong Rui-Qi, Wu Yu-Yao, Zhang Ying, International journal of aerospace engineering . 2019,第PTa4期

机译：适应性背击态度控制法，灵活的宇宙飞船的L_2-GAIN性能
2. Robust Adaptive Attitude Tracking Control With L2-Gain Performance and Vibration Reduction of an Orbiting Flexible Spacecraft [J] . Qinglei Hu Journal of Dynamic Systems, Measurement, and Control . 2011,第1期

机译：具有L2增益性能和减震特性的鲁棒自适应姿态跟踪控制
3. Robust adaptive backstepping attitude and vibration control with L_2-gain performance for flexible spacecraft under angular velocity constraint [J] . Hu Q. Journal of Sound and Vibration . 2009,第3a5期

机译：角速度约束下挠性航天器的鲁棒自适应后推姿态和具有L_2增益性能的振动控制
4. Adaptive Attitude Tracking Control with L2-gain Performance for an Orbiting Flexible Spacecraft [C] . Qinglei Hu, Michael I. Friswell IFAC World Congress . 2008

机译：适应姿态跟踪控制对轨道柔性航天器的L2增益性能
5. Spacecraft attitude control using direct model reference adaptive control [D] . Harvey, Seth A. 2008

机译：使用直接模型参考自适应控制的航天器姿态控制
6. Advanced Autonomous Underwater Vehicles Attitude Control with ... formula ... Backstepping Adaptive Control Strategy [O] . Yuqian Liu, Jiaxing Che, Chengyu Cao 2019

机译：具有... ... ...公式的Backstepping自适应控制策略的高级自主水下航行器姿态控制
7. Adaptive Sliding Mode Control Laws for Attitude Stabilization of Flexible Spacecraft With Inertia Uncertainty [O] . Ai-Guo Wu, Rui-Qi Dong, Ying Zhang, 2019

机译：具有惯性不确定性的柔性航天器姿态稳定的自适应滑模控制规律

Adaptive Backstepping Attitude Control Law with L2-Gain Performance for Flexible Spacecraft

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