引用本文:周燕茹,黄文超,曾建平.挠性卫星姿态非线性局部镇定控制[J].控制理论与应用,2014,31(3):279~284.[点击复制]
zhou Yan-ru,huang Wen-chao,ZENG Jian-ping.Nonlinear local stabilization control of flexible satellite attitude system[J].Control Theory and Technology,2014,31(3):279~284.[点击复制]
挠性卫星姿态非线性局部镇定控制
Nonlinear local stabilization control of flexible satellite attitude system
摘要点击 3080  全文点击 2100  投稿时间:2013-05-11  修订日期:2013-10-18
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DOI编号  10.7641/CTA.2014.30464
  2014,31(3):279-284
中文关键词  挠性卫星  姿态控制  非线性控制  降维观测器  平方和
英文关键词  flexible satellite  attitude control  nonlinear control  reduced-order observer  sum of squares
基金项目  国家自然科学基金资助项目(61374037); 高等学校博士学科点专项科研基金资助项目(20110121110017).
作者单位E-mail
周燕茹 厦门大学信息科学与技术学院 rururufeng@126.com 
黄文超 厦门大学信息科学与技术学院  
曾建平* 厦门大学信息科学与技术学院 jpzeng@xmu.edu.cn 
中文摘要
      本文针对挠性卫星姿态机动和振动抑制问题, 给出一种基于多项式平方和(sum of squares, SOS)的非线性 局部镇定控制方法. 根据姿态系统结构特征, 在此基础上, 采用SOS结合S-procedure理论, 得出相应的非线性局部可 镇定条件. 该条件可借助有效凸优化工具进行检验, 当优化问题可解时, 可构造非线性姿态控制器的解析解. 最后, 将文中方法应用于某型挠性卫星姿态控制. 仿真结果表明, 在实现大角度姿态快速机动的同时, 有效抑制了挠性附 件振动.
英文摘要
      Based on the polynomial sum of squares (SOS) techniques, a nonlinear local stabilization control approach is designed for the problem of flexible satellite attitude maneuver and Based on the polynomial sum of squares (SOS) techniques, a nonlinear local stabilization control approach is proposed for the problem of flexible satellite attitude maneuver and vibration suppression. According to the structural features of attitude system, a nonlinear local stabilization controller is developed and the complexity of attitude control design is reduced effectively by employing a separation principle for the reduced-order observer and state feedback. On this basis, the corresponding conditions of nonlinear local stabilization, which can be checked through convex optimization algorithms, are presented by using the SOS and S-procedure theory, and the analytical solution of nonlinear attitude controller can be constructed if the optimization problem is solvable. Finally, this method is applied to the attitude control of a flexible satellite and the simulation results show that both the fast large angle attitude maneuver and the vibration suppression are well realized.