Robust adaptive integral backstepping control and its implementation on motion control system

2012 International Conference on Power, Signals, Controls and Computation Pub Date : 2012-04-03 DOI:10.1109/EPSCICON.2012.6175279

S. Rudra, Kasturi Ghosh, Monalisa Das

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引用次数: 3

Abstract

In this paper a design methodology for a novel robust adaptive integral backstepping controller for the motion control system, has been presented in a systematic manner. Backstepping is a realistic nonlinear control design algorithm based on Lyapunov design approach, as a consequence it automatically ensures the convergence of the regulated variable to zero. Adaptation schemes are designed to estimate the inertia variation and load disturbance in the motion control systems. Integral action is being used to enhance the control action of the controller in steady state against the disturbances. We explore the concept of continuous switching function in parameter update law to ensure the robustness of the adaptive design. The effectiveness of the proposed algorithm has been demonstrated in simulation studies. The controller design has been evaluated not only for the tracking performance but also for the parameters convergence rate of the system. It is quite interesting to note that during the simulation it does not require any prior information about the parameters of the mathematical model of the motion control system.

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鲁棒自适应积分反演控制及其在运动控制系统中的实现

本文系统地提出了一种新型运动控制系统鲁棒自适应积分反步控制器的设计方法。退步是一种基于李雅普诺夫设计方法的现实非线性控制设计算法，它能自动保证被控变量收敛于零。设计了自适应方案来估计运动控制系统中的惯性变化和负载扰动。积分作用被用来增强控制器在稳定状态下对扰动的控制作用。探讨了参数更新律中连续切换函数的概念，以保证自适应设计的鲁棒性。仿真研究证明了该算法的有效性。对控制器设计进行了评价，不仅考虑了系统的跟踪性能，而且考虑了系统的参数收敛速度。值得注意的是，在仿真过程中，它不需要任何关于运动控制系统数学模型参数的先验信息。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2012 International Conference on Power, Signals, Controls and Computation

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