多轴压电纳米定位平台滑模解耦控制算法研究
CSTR:
作者:
作者单位:

作者简介:

通讯作者:

中图分类号:

基金项目:


Research on sliding mode decoupling control algorithm for multi-axis piezoelectric nano-positioning platform
Author:
Affiliation:

Fund Project:

  • 摘要
  • |
  • 图/表
  • |
  • 访问统计
  • |
  • 参考文献
  • |
  • 相似文献
  • |
  • 引证文献
  • |
  • 资源附件
  • |
  • 文章评论
    摘要:

    为解决三维压电纳米定位平台在多轴运动过程中轴间交叉耦合严重、定位精度难以满足纳米测量要求的问题,运用前馈解耦控制理论与滑模控制相结合的方法,设计一种复合控制算法。首先,建立耦合误差模型并采用最小二乘法辨识模型参数,设计前馈解耦控制器将耦合系统解耦为多个独立的单轴控制系统;然后,针对压电陶瓷的迟滞非线性、未完全解耦的残余耦合及外部扰动,设计非奇异终端滑模自抗扰控制器,通过扩张状态观测器对总扰动进行实时估计与补偿,采用指数趋近律削弱滑模抖振。通过MATLAB / Simulink仿真验证控制算法的有效性,并搭建基于激光干涉仪的实验平台对三维压电纳米定位平台进行耦合测试。实验结果表明:所提出的滑模解耦控制算法将轴间耦合产生的误差降至0.03 μm以下,栅格扫描轨迹与规划路径基本一致,满足多轴压电平台纳米级定位精度需求。

    Abstract:

    To address the severe inter-axis cross-coupling and positioning accuracy limitations in three-dimensional piezoelectric nano-positioning platforms during multi-axis motion that hinder nanometer-level measurement requirements, this study proposes a hybrid control algorithm integrating feed-forward decoupling control theory with sliding mode control. The method involves: first, establishing a coupled error model and employing least squares estimation for parameter identification to design feed-forward decoupling controllers that separate the coupled system into independent single-axis control units; then, developing a non-singular terminal sliding mode self-stabilizing controller to mitigate piezoelectric hysteresis nonlinearity, residual coupling effects, and external disturbances, while utilizing extended state observers for real-time disturbance estimation and compensation, and using exponential convergence laws to suppress sliding mode chattering. The effectiveness of the control algorithm was verified through MATLAB / Simulink simulation, and an experimental platform based on a laser interferometer was constructed for coupled testing of a three-dimensional piezoelectric nano-positioning system. Experimental results demonstrate that the proposed sliding-mode decoupling control algorithm reduces the error caused by inter-axis coupling to below 0.03 μm, with the grid scanning trajectory closely matching the planned path, thereby meeting the nanometer-level positioning accuracy requirements of the multi-axis piezoelectric platform.

    参考文献
    相似文献
    引证文献
引用本文

齐思宁, 李强.多轴压电纳米定位平台滑模解耦控制算法研究[J].计测技术,2026,46(3):65~76:
10.11823/j. issn.1674-5795.2026.03.08.

复制
分享
相关视频

文章指标
  • 点击次数:
  • 下载次数:
  • HTML阅读次数:
  • 引用次数:
历史
  • 收稿日期:
  • 最后修改日期:
  • 录用日期:
  • 在线发布日期: 2026-07-02
  • 出版日期:
文章二维码