Global Regulation of Flexible Joint Robots With Input Saturation by Nonlinear I-PID-Type Control

IF 4.9 2区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS IEEE Transactions on Control Systems Technology Pub Date : 2024-04-26 DOI:10.1109/TCST.2024.3391129

Jerónimo Moyrón;Javier Moreno-Valenzuela;Jesus Sandoval

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Abstract

This brief addresses the global regulation of torque-driven flexible joint robots with input constraints. It is reported a nonlinear control scheme with bounded actions that guarantees global asymptotic stability despite input saturation, matched and unmatched disturbances, and parametric uncertainties. The control system has a double loop in a cascade configuration, where the outer loop has an integral (I) action driven by the joint deflection error. In addition, the inner loop has a nonlinear proportional-integral-derivative (PID-type) structure. Hence, an I-PID-type controller is obtained. The design methodology is based on a linear change of coordinates of the joint deflection and motor errors that allows the conclusion of global asymptotic stability via Lyapunov theory and the Barbashin–Krasovskii theorem. Sufficient conditions are explicitly stated and given in the form of matrix inequalities. Real-time experiments on a two-degrees-of-freedom flexible joint manipulator confirm the viability of the proposed controller, which exhibits better performance than the other two control algorithms.

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通过非线性 I-PID 型控制对输入饱和的柔性关节机器人进行全局调节

本论文探讨了具有输入约束条件的扭矩驱动柔性关节机器人的全局调节问题。报告介绍了一种具有约束动作的非线性控制方案，该方案能在输入饱和、匹配和非匹配干扰以及参数不确定性的情况下保证全局渐近稳定性。该控制系统具有级联配置的双回路，其中外环具有由关节偏转误差驱动的积分（I）作用。此外，内环具有非线性比例-积分-派生（PID 型）结构。因此，可以得到一个 I-PID 型控制器。设计方法基于关节挠度和电机误差坐标的线性变化，可以通过 Lyapunov 理论和 Barbashin-Krasovskii 定理得出全局渐近稳定性的结论。以矩阵不等式的形式明确提出并给出了充分条件。在一个两自由度柔性关节机械手上进行的实时实验证实了所提控制器的可行性，它比其他两种控制算法表现出更好的性能。

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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来源期刊

IEEE Transactions on Control Systems Technology 工程技术-工程：电子与电气

CiteScore

10.70

自引率

2.10%

发文量

218

审稿时长

6.7 months

期刊介绍： The IEEE Transactions on Control Systems Technology publishes high quality technical papers on technological advances in control engineering. The word technology is from the Greek technologia. The modern meaning is a scientific method to achieve a practical purpose. Control Systems Technology includes all aspects of control engineering needed to implement practical control systems, from analysis and design, through simulation and hardware. A primary purpose of the IEEE Transactions on Control Systems Technology is to have an archival publication which will bridge the gap between theory and practice. Papers are published in the IEEE Transactions on Control System Technology which disclose significant new knowledge, exploratory developments, or practical applications in all aspects of technology needed to implement control systems, from analysis and design through simulation, and hardware.

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