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引用次数: 4

摘要

机器人机械手的动力学模型包含from方程,这些方程是非线性的,并且包含由于负载、摩擦和扰动的变化而引起的参数变化。传统的计算转矩(PD和PID)控制器不太适用于具有延迟的非线性、复杂的时变系统。本文使用模糊逻辑控制器(FLC),因为它是控制非线性和不确定参数系统的有效工具。本文设计了一种用于PUMA560机器人位置控制的模糊逻辑控制器。基于仿真结果,我们得出结论,在扰动或负载情况下,模糊逻辑控制器在位置跟踪误差方面的性能优于传统的计算转矩(PD-CTC和PID-CTC)控制器。
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Fuzzy Logic Controller Design for PUMA 560 Robot Manipulator
The dynamic model of the robot manipulator contain from equations, these equations are nonlinear and contained from variations parameters due to variations in load, friction, and disturbance. The conventional computed torque (PD and PID) controllers are not highly suitable for nonlinear, complex, time-variant systems with delay. In this paper, the fuzzy logic controllers (FLC) has been used because it is efficient tools for control of nonlinear and uncertain parameters systems. This paper aims to design a fuzzy logic controller for position control of a PUMA 560 robot manipulator. Based on simulation results we conclude that the performance of the fuzzy logic controller in term of position tracking error in case of disturbance or load is better than the conventional computed torque (PD-CTC and PID-CTC) controllers.
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