引用本文:周祖鹏,谭永红.基于非光滑观测器的间隙三明治系统状态估计[J].控制理论与应用,2012,29(1):34~40.[点击复制]
ZHOU Zu-peng,TAN Yong-hong.Non-smooth observer for sandwich systems with backlash[J].Control Theory and Technology,2012,29(1):34~40.[点击复制]
基于非光滑观测器的间隙三明治系统状态估计
Non-smooth observer for sandwich systems with backlash
摘要点击 2831  全文点击 1935  投稿时间:2010-10-19  修订日期:2011-03-09
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DOI编号  10.7641/j.issn.1000-8152.2012.1.CCTA101229
  2012,29(1):34-40
中文关键词  非光滑观测器  间隙  三明治系统  状态估计
英文关键词  non-smooth observer  backlash  sandwich system  state estimation
基金项目  上海师范大学重点学科资助项目(DZL811, DRL904, DYL201005); 上海市教育委员会科研创新资助项目(09ZZ141); 国家自然科学基金资助项目(60971004); 上海市科委重点资助项目(09220503000, 10JC1412200); 上海市自然科学基金资助项目(09ZR1423400).
作者单位E-mail
周祖鹏 西安电子科技大学 电子工程学院
桂林电子科技大学 机电工程学院 
zhouzupeng@guet.edu.cn 
谭永红* 上海师范大学 信息与机电工程学院 tany@shnu.edu.cn;tanyongh@yahoo.com.cn 
中文摘要
      在工业领域, 机械传动系统、液压系统等往往含有间隙特性, 这类系统可以用带间隙的三明治系统描述. 本文针对带间隙的三明治系统特点, 构建了一种非光滑观测器以对系统状态进行估计. 首先根据带间隙三明治系统的特点, 采用分离原理, 建立了描述系统特性的非光滑状态空间方程. 据此构造了能够随系统工作区间变化而自动切换的非光滑观测器, 给出了相应的收敛定理及其证明. 最后通过伺服液压系统的例子, 分别比较了非光滑观测器和传统的观测器对状态的跟踪效果, 比较结果表明非光滑观测器对于带间隙三明治系统状态变量估计的准确性要优于传统的观测器.
英文摘要
      Industrial systems involving backlash, such as mechanical transmission systems and hydraulic systems, can be described by so-called sandwich systems with backlash. A novel non-smooth observer is proposed to handle the state estimation for sandwich systems with backlash. Based on the characteristics of the system, a non-smooth state-space equation is constructed by using the separation principle. A non-smooth observer is developed based on the obtained state-space equation. The observer switches automatically among different operating zones according to the changes of operation conditions. The convergence of the non-smooth observer is discussed. The application of this observer to a practical hydraulic servo system is realized. The comparison of tracking performances of the hydraulic servo system is made between the proposed non-smooth scheme and the conventional method. It is shown that the proposed non-smooth approach is with much better estimated performance.