航天器相对姿态跟踪的非线性前馈控制

Nonlinear Feedforward Control for Spacecraft Relative Attitude Tracking

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摘要针对航天器相对姿态跟踪过程中严重的非线性及控制器设计的复杂性,建立了基于修正罗德里格斯参数的航天器相对姿态运动学和动力学方程并根据Lyapunov直接法设计了非线性前馈控制律。设计的控制律不仅保证闭环系统稳定,还使得航天器相对姿态跟踪误差快速收敛到零点邻域内。通过在Matlab/Simulink环境下对航天器相对姿态跟踪进行数值仿真,验证了建立模型和设计控制律的有效性。 The spacecraft relative attitude kinematics and dynamics based on modified rodrigues parameters（MRP） were proposed in the presence of serious nonlinear and controller design complexity during spacecraft relative attitude tracking control. A nonlinear feedforward controller was designed using Lyapunov method. The control law can not only ensure global asymptotic steady of close-loop system, but also make relative attitude tracking errors converge to zero field speedily. By using Matlab/Simulink programming, the modeling and simulation of spacecraft relative attitude tracking were discussed. Numerical simulations are exploited to verify the effectiveness of the model and control law.

作者铁钰嘉杨伟岳晓奎

机构地区西北工业大学

出处《中国空间科学技术》 EI CSCD 北大核心 2011年第6期15-20,共6页 Chinese Space Science and Technology

基金国家自然科学基金(10772145)资助项目

关键词修正罗德里格斯参数拉格朗日方程非线性控制姿态跟踪航天器 Modified rodrigues parameters Lagrange equation Nonlinear control Attitude tracking Spacecraft

分类号 V448.22 [航空宇航科学与技术—飞行器设计]

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