An adaptive variable structure controller for robotic manipulators

Jing Zhang, Xin Gao, En Li
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引用次数: 3

Abstract

According to the typical nonlinearity characteristics of the manipulator system, a variable structure control (VSC) is proposed. In this paper, construct a nonlinear dynamic mathematical model for the manipulator system, using the nonlinear mathematical model of sliding surface integral design, with adaptive switching function strategies to estimate the parameters of the uncertain systems, adaptive control and sliding mode control together. The paper application variable structure, integral variable structure and adaptive variable structure control method of the manipulator system design, the simulation results show that this algorithm decreases the uncertainty, with smaller control gain, can effectively weaken system chattering.
机械臂自适应变结构控制器
针对机械臂系统典型的非线性特性,提出了一种变结构控制方法。本文建立了机械手系统的非线性动态数学模型,采用滑动面积分设计的非线性数学模型,采用自适应切换函数策略估计不确定系统的参数,将自适应控制与滑模控制相结合。本文应用变结构、积分变结构和自适应变结构控制方法对机械手系统进行设计,仿真结果表明,该算法降低了不确定性,控制增益较小,能有效地减弱系统抖振。
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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