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Adaptive finite-time attitude tracking control of an uncertain spacecraft with input saturation

机译：具有输入饱和度的不确定航天器的自适应有限时姿态跟踪控制

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This paper presents an adaptive finite time tracking control design for a spacecraft with uncertainties and input saturation. Radial basis function neural networks (RBFNNs) are used to approximate the unknown uncertainties and external disturbances. The input saturation effect is compensated by adding an auxiliary signal. State feedback finite time tracking controller is then proposed based on the finite time control principle and backstepping technique. Consequently, attitude tracking of an uncertain spacecraft with the finite time convergent property is achieved even in the presence of input saturation. Stability of the closed-loop system is analyzed via Lyapunov direct method. Simulation studies are conducted to examine the effectiveness of the proposed control.

机译：本文介绍了用于航天器的自适应有限时间跟踪控制设计，具有不确定性和输入饱和度。径向基函数神经网络（RBFNNS）用于近似未知的不确定性和外部干扰。通过添加辅助信号来补偿输入饱和效应。然后基于有限时间控制原理和背击技术提出了状态反馈有限时间跟踪控制器。因此，即使在输入饱和度存在下，也可以实现具有有限时间收敛性的不确定航天器的姿态跟踪。通过Lyapunov直接方法分析闭环系统的稳定性。进行仿真研究以检查所提出的控制的有效性。

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《IEEE Conference on Control Applications》|2015年|930-935|共6页
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Jianjun Ma; Peng Li; Lina Geng; Zhiqiang Zheng;
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Lyapunov methods; adaptive control; attitude control; closed loop systems; control nonlinearities; control system synthesis; neurocontrollers; radial basis function networks; space vehicles; stability; state feedback; Lyapunov direct method; RBFNNs; adaptive finite-time attitude tracking control design; auxiliary signal; backstepping technique; closed-loop system stability; finite time control principle; input saturation; radial basis function neural networks; spacecraft; state feedback finite time tracking controller; Actuators; Approximation methods; Artificial neural networks; Closed loop systems; Space vehicles; Uncertainty;

机译：Lyapunov方法;自适应控制;姿态控制;闭环系统;控制非线性;控制系统综合;神经控制器;径向基函数网络;航天器;稳定性;状态反馈; Lyapunov直接法; RBFNNs;自适应有限时姿态跟踪控制设计;辅助信号;反推技术;闭环系统稳定性;有限时间控制原理;输入饱和度;径向基函数神经网络;航天器;状态反馈有限时间跟踪控制器;执行器;逼近方法;人工神经网络;闭环系统;航天器;不确定;

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专利

1. Adaptive Finite-Time Control for Attitude Tracking of Spacecraft under Input Saturation [J] . Guo Yong, Huang Bing, Wang Shuo, Journal of aerospace engineering . 2018,第2期

机译：输入饱和下航天器姿态跟踪的自适应有限时间控制
2. Adaptive Finite-Time 6-DOF Tracking Control for Spacecraft Fly Around With Input Saturation and State Constraints [J] . Huang Yi, Jia Yingmin IEEE Transactions on Aerospace and Electronic Systems . 2019,第6期

机译：用于航天器的自适应有限时间6-DOF跟踪控制，具有输入饱和度和状态约束
3. Robust adaptive finite-time attitude tracking and synchronization control for multi-spacecraft with actuator saturation [J] . Zhu Zhihao, Guo Yu Proceedings of the Institution of Mechanical Engineers . 2019,第2期

机译：具有执行器饱和的多航天器的鲁棒自适应有限时姿态跟踪和同步控制
4. Adaptive finite-time attitude tracking control of an uncertain spacecraft with input saturation [C] . Jianjun Ma, Peng Li, Lina Geng, IEEE Conference on Control Applications . 2015

机译：输入饱和度不确定航天器的自适应有限时间姿态跟踪控制
5. Incorporating input saturation for underactuated surface vessel trajectory tracking control. [D] . Siramdasu, Yaswanth. 2012

机译：结合输入饱和度以进行欠驱动的水面船只轨迹跟踪控制。
6. Finite-Time Attitude Stabilization Adaptive Control for Spacecraft with Actuator Dynamics [O] . Chunbao Wang, Dong Ye, Zhongcheng Mu, 2019

机译：具有执行器动力学的航天器航天器的有限时间态度稳定控制
7. Finite-time attitude tracking control for spacecraft with uncertain actuator configuration [O] . Hu QL(胡庆雷), Yu Yanbo, Li B(李波), 2015

机译：具有不确定执行器配置的航天器的有限时间姿态跟踪控制

Adaptive finite-time attitude tracking control of an uncertain spacecraft with input saturation

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