JZUS - Journal of Zhejiang University SCIENCE

Journal of Zhejiang University SCIENCE C

Accepted manuscript available online (unedited version)

Motion synchronization of dual-cylinder pneumatic servo systems with integration of adaptive robust control and cross-coupling approach

Author(s): De-yuan Meng, Guo-liang Tao, Ai-min Li, Wei Li
Affiliation(s): School of Mechatronic Engineering, China University of Mining and Technology, Xuzhou 221116, China; more
Corresponding email(s): tinydream@zju.edu.cn, gltao@zju.edu.cn
Key Words: Motion synchronization, Pneumatic servo system, Cross-coupling, Adaptive robust control

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De-yuan Meng, Guo-liang Tao, Ai-min Li, Wei Li. Motion synchronization of dual-cylinder pneumatic servo systems with integration of adaptive robust control and cross-coupling approach[J]. Journal of Zhejiang University Science C,in press.Frontiers of Information Technology & Electronic Engineering,in press.https://doi.org/10.1631/jzus.C1300360

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author="De-yuan Meng, Guo-liang Tao, Ai-min Li, Wei Li",
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year="in press",
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}

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%T Motion synchronization of dual-cylinder pneumatic servo systems with integration of adaptive robust control and cross-coupling approach
%A De-yuan Meng
%A Guo-liang Tao
%A Ai-min Li
%A Wei Li
%J Journal of Zhejiang University SCIENCE C
%P 651-663
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%D in press
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doi="https://doi.org/10.1631/jzus.C1300360"

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T1 - Motion synchronization of dual-cylinder pneumatic servo systems with integration of adaptive robust control and cross-coupling approach
A1 - De-yuan Meng
A1 - Guo-liang Tao
A1 - Ai-min Li
A1 - Wei Li
J0 - Journal of Zhejiang University Science C
SP - 651
EP - 663
%@ 2095-9184
Y1 - in press
PB - Zhejiang University Press & Springer
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doi="https://doi.org/10.1631/jzus.C1300360"

Abstract
Chinese Summary
Academic Network
Reviewer Comment

Abstract: We investigate motion synchronization of dual-cylinder pneumatic servo systems and develop an adaptive robust synchronization controller. The proposed controller incorporates the cross-coupling technology into the integrated direct/indirect adaptive robust control (DIARC) architecture by feeding back the coupled position errors, which are formed by the trajectory tracking errors of two cylinders and the synchronization error between them. The controller employs an online recursive least squares estimation algorithm to obtain accurate estimates of model parameters for reducing the extent of parametric uncertainties, and uses a robust control law to attenuate the effects of parameter estimation errors, unmodeled dynamics, and disturbances. Therefore, asymptotic convergence to zero of both trajectory tracking and synchronization errors can be guaranteed. Experimental results verify the effectiveness of the proposed controller.

基于交叉耦合方法的双轴气动伺服系统自适应鲁棒同步控制研究

研究目的：多轴气动伺服系统因具有功率-质量比大、清洁、价格低、结构简单、易维护等优点，在机器人、工业自动化、医疗机械等领域具有广泛应用前景。但是，该系统具有很多不利于精确控制的缺点，如强非线性、参数时变性、模型不确定性等。本文针对双缸气动伺服系统，从建立系统模型入手，探寻同时实现单气缸高精度轨迹跟踪控制和双气缸高精度位置同步的控制策略，旨在为这项技术的工业实用化奠定基础。
创新要点：提出了一种基于交叉耦合方法的自适应鲁棒气动同步控制策略，既保证了多气缸精确同步，又实现了系统中每一气缸的高精度运动轨迹跟踪控制。
方法提亮：将交叉耦合思想与直接/间接集成自适应鲁棒控制结合起来，提出一种基于交叉耦合方法的自适应鲁棒气动同步控制策略。将同步误差直接反馈至每个轴控制器的输入端而非输出端，利用交叉耦合方法将同步误差和轨迹跟踪误差组成耦合误差，基于该新误差变量设计自适应鲁棒控制器。控制器由在线最小二乘参数估计和基于反步法设计的非线性鲁棒控制器组成，前者用于减小模型中的参数不确定性，后者用于抑制参数估计误差、未建模动态和干扰的影响，使得单缸的轨迹跟踪误差和多缸间的同步误差同时收敛，既保证多气缸精确同步又不影响系统中每一气缸的轨迹跟踪控制精度。
重要结论：实验结果表明，该控制器能实现很高的同步位置控制精度，对干扰具有较强的鲁棒性。
运动同步；气动伺服系统；交叉耦合；自适应鲁棒控制

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Reference

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基于交叉耦合方法的双轴气动伺服系统自适应鲁棒同步控制研究

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