Fuzzy Hybrid Force-Position Control for the Robotic Arm of an Upper Limb Rehabilitation Robot Powered by Pneumatic Muscles

Xianzhi Jiang, C. Xiong, Ronglei Sun, Y. Xiong
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引用次数: 9

Abstract

The main aim of this paper is to design a hybrid force-position controller using fuzzy logic (FL) for the robotic arm of a 9 degrees of freedom (DOF) upper limb wearable exoskeleton rehabilitation robot. The robot is designed and built in our lab for assisting in the rehabilitation of patients post-stroke. The robotic arm of the rehabilitation robot is driven by pneumatic muscles (PM) and its dynamic performance is very complex. Fuzzy logic (FL) control techniques are applied to the robotic arm and the results show that FL controller shows better performances than that of the conventional PI controller in hybrid force-position control of the specified robotic arm of the rehabilitation robot.
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气动肌肉驱动上肢康复机器人机械臂的模糊力位混合控制
本文的主要目的是为一种9自由度上肢可穿戴外骨骼康复机器人的机械臂设计一种基于模糊逻辑(FL)的混合力-位置控制器。这个机器人是在我们的实验室设计和制造的,用于协助中风后患者的康复。康复机器人的机械臂是由气动肌肉驱动的,其动态性能非常复杂。将模糊逻辑(FL)控制技术应用于机械臂,结果表明,在康复机器人指定机械臂的力-位置混合控制中,FL控制器比传统PI控制器具有更好的控制性能。
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