基于格拉米安法的操纵机器人多项式控制器鲁棒控制系统的合成

A. Abbyasov, S. Tararykin, A. Anisimov, V. V. Apolonsky
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引用次数: 0

摘要

由于操纵机器人可能有多个控制通道,其非线性坐标关系会导致内部参数干扰以及机械参数的变化,因此使用格拉米安方法合成鲁棒自动控制系统似乎是提高此类物体控制质量的有效方法。在为机械手开发鲁棒控制系统时,使用了多项式模态控制方法,为机械手的两个部分合成了局部调节器,并使用格拉米安方法调整的对象模型合成了集中控制器。在 MATLAB 软件包中进行了基于双链节机器人机械手线性模型的调节器计算和链节运动瞬态特性分析。提出了一种为操纵机器人合成鲁棒控制系统的方法。该方法基于带有动态(多项式)控制器的控制对象线性化数学模型,旨在改变可控性和可观测性格拉米安的奇数,并随后计算集中控制器以控制原始非线性对象。使用修改后的对象模型可以提高非线性机器人对象控制系统的鲁棒性和速度,同时在链接和参数变化相互影响的条件下保持过程的非周期性。所提出的方法可以在强化技术生产的条件下提高操纵机器人的控制质量和生产率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis of a robust control system for a manipulation robot with polynomial controllers based on Gramian method
Since manipulation robots can have several control channels, and their nonlinear coordinate relationships lead to internal parametric disturbances, along with variations in mechanical parameters, the use of Gramian methods for the synthesis of robust automatic control systems seems to be an effective way to improve the quality of control of such objects. When developing a robust control system for a manipulative robot, the method of polynomial modal control is used, local regulators are synthesized for both parts of the manipulator and a centralized controller is synthesized using an object model adjusted by the Gramian method. The calculations of the regulator based on the linear model of a two-link robot manipulator and the analysis of the transient characteristics of the movement of its links are carried out in the MATLAB software package. A method to synthesize a robust control system for a manipulation robot is proposed. It is based on a linearized mathematical model of a control object with a dynamic (polynomial) controller, aimed at changing the singular number of controllability and observability Gramians and subsequent calculation of a centralized controller to control the original nonlinear object. The use of a modified object model makes it possible to improve the robust properties and increase the speed of the control system for a nonlinear robotic object while maintaining the aperiodic nature of the processes under conditions of mutual influence of links and parameter variations. The proposed method makes it possible to improve the quality of control of manipulative robots and their productivity in conditions of intensification of technological production.
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