Finite-time attitude control of multiple rigid spacecraft using terminal sliding mode

Zhou Ning; Xia Yuanqing; Wang Meiling; Fu Mengyin

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Finite-time attitude control of multiple rigid spacecraft using terminal sliding mode

机译：使用终端滑模的多重刚性航天器的有限时间姿态控制

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This paper investigates the control problem of finite-time attitude synchronization and tracking for a group of rigid spacecraft in the presence of environmental disturbances. A new fast terminal sliding manifold is developed for multiple spacecraft formation flying under the undirected graph topology. On the basis of the finite-time control and adaptive control strategies, two novel decentralized finite-time control laws are proposed to force the spacecraft attitude error dynamics to converge to small regions in finite time, and adaptive control is applied to reject the disturbance. The finite-time convergence and stability of the closed-loop system can be guaranteed by Lyapunov theory. Simulation examples are provided to illustrate the feasibility of the control algorithm. Copyright (c) 2014 John Wiley & Sons, Ltd.

机译：本文研究了在有环境干扰的情况下一组刚性航天器的有限时间姿态同步和跟踪控制问题。开发了一种新的快速终端滑动歧管，用于在无向图拓扑下飞行的多个航天器编队。在有限时间控制和自适应控制策略的基础上，提出了两种新颖的分散式有限时间控制律，迫使航天器姿态误差动力学在有限时间内收敛到小区域，并采用自适应控制来抑制干扰。 Lyapunov理论可以保证闭环系统的有限时间收敛性和稳定性。提供了仿真示例，以说明控制算法的可行性。版权所有（c）2014 John Wiley＆Sons，Ltd.

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《International Journal of Robust and Nonlinear Control》 |2015年第12期|共15页
作者
Zhou Ning; Xia Yuanqing; Wang Meiling; Fu Mengyin;
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正文语种 eng
中图分类自动化系统;
关键词
attitude synchronization; fast terminal sliding manifold (FTSM); finite-time control; adaptive control;

机译：姿态同步;快速终端滑动歧管（FTSM）;有限时间控制;自适应控制;

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专利

1. Finite-time attitude control of multiple rigid spacecraft using terminal sliding mode [J] . Zhou Ning, Xia Yuanqing, Wang Meiling, International Journal of Robust and Nonlinear Control . 2015,第12期

机译：使用终端滑模的多重刚性航天器的有限时间姿态控制
2. Chattering-free full-order recursive sliding mode control for finite-time attitude synchronization of rigid spacecraft [J] . Song Zhuoyue, Duan Chao, Wang Jianan, Journal of the Franklin Institute . 2019,第2期

机译：刚性航天器有限时间姿态同步的无抖动全阶递归滑模控制
3. Finite-time sliding mode attitude control for rigid spacecraft without angular velocity measurement [J] . Shao Shikai, Zong Qun, Tian Bailing, Journal of the Franklin Institute . 2017,第12期

机译：刚性航天器的有限时间滑模姿态控制，无需角速度测量
4. Distributed cooperative attitude tracking control for multiple rigid spacecraft using fast terminal sliding mode [C] . Chao Gan, Pingli Lu, Xiangdong Liu, World Congress on Intelligent Control and Automation . 2014

机译：采用快速终端滑模的多刚性航天器分布式协同姿态跟踪控制
5. A continuous finite-time controller in the sliding mode [D] . Steel, Toby E. O. 1995

机译：滑动模式下的连续有限时间控制器
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 Spacecraft’s Soft Landing on Asteroids Using PD and Nonsingular Terminal Sliding Mode Control [O] . Keping Liu, Fengxia Liu, Shenquan Wang, 2015

机译：使用PD和非垂直端子滑动模式控制的有限时间宇宙飞船在小行星上的软着陆
8. Nonlinear Decoupling Sliding Mode Control and Attitude Control of Spacecraft. [R] . Nartker, T. A., Singh, S. N., Iyer, A. 1989

机译：航天器非线性解耦滑模控制与姿态控制。

Finite-time attitude control of multiple rigid spacecraft using terminal sliding mode

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