挠性航天器的非线性PID和PI姿态控制器设计

靳尔东; 孙兆伟

引用本文:	靳尔东,孙兆伟.挠性航天器的非线性PID和PI姿态控制器设计[J].控制理论与应用,2009,26(5):540~545.[点击复制]
	JIN Er-dong,SUN Zhao-wei.The design of nonlinear PID and PI attitude-controller for a flexible spacecraft[J].Control Theory and Technology,2009,26(5):540~545.[点击复制]

挠性航天器的非线性PID和PI姿态控制器设计

The design of nonlinear PID and PI attitude-controller for a flexible spacecraft

摘要点击 1980 全文点击 1810 投稿时间：2007-05-08 修订日期：2008-09-19

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DOI编号 10.7641/j.issn.1000-8152.2009.5.013

2009,26(5):540-545

中文关键词挠性航天器姿态控制非线性PID/PI 奇异扰动半全局稳定

英文关键词 flexible spacecraft attitude control nonlinear PID/PI singular perturbation semiglobal stability

基金项目国家高技术研究发展计划(863计划)资助项目(2006AA701412).

作者	单位	E-mail
靳尔东	哈尔滨工业大学航天学院卫星技术研究所, 黑龙江哈尔滨 150080	jined@hit.edu.cn
孙兆伟	哈尔滨工业大学航天学院卫星技术研究所, 黑龙江哈尔滨 150080	sunzhaowei@vip.sina.com

中文摘要

针对存在模型不确性和常值干扰的挠性航天器, 提出一种不依赖于模型参数的非线性PID姿态控制器. 该控制器在小姿态偏差的情况下近似经典的线性PID控制器. 另外, 考虑到航天器上陀螺失效情况, 设计了一种仅需姿态测量信息的非线性PI控制器. 这两种控制器在局部均对常值干扰有抑制作用, 并能使无干扰作用的姿态控制系统半全局渐近稳定. 闭环系统的稳定性证明采用了奇异扰动理论, 以解决积分项的存在带来的稳定性分析问题. 文章最后用数学仿真验证了控制器的性能.

英文摘要

A model-independent nonlinear PID attitude-controller is proposed for a flexible spacecraft with model uncertainties and constant disturbances. This controller approximates to a classical linear PID controller when the attitude error is small. In addition, a nonlinear PI controller which only requires attitude measurement is also designed for the case of gyros failure. Both of the proposed controllers exhibit the disturbances rejection properties in a local region, and render the attitude control system semi-globally stable in the case of no disturbance. To solve the stability analysis problem arising from the integral term, we employ the singular perturbation theory to analyze the stability of the resulting closed-loop system. Finally, numerical simulations are included to demonstrate the performance of the presented controllers.