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

机译：用于气动肌肉动力的上肢康复机器人机器人臂的模糊混合力控制

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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.

机译：本文的主要目的是设计一种使用模糊逻辑（FL）的混合力位置控制器，用于9度自由（DOF）上肢可穿戴外骨骼康复机器人的机器人臂。该机器人是设计和构建的，用于协助患者患者后卒中的康复。康复机器人的机器人手臂由气动肌肉（PM）驱动，其动态性能非常复杂。模糊逻辑（FL）控制技术应用于机器人臂，结果表明，FL控制器显示出比康复机器人特定机器人臂的混合力位置控制中的传统PI控制器的表现更好。

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《International Conference on E-Product E-Service and E-Entertainment》|2010年||共4页
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Jiang Xianzhi; Xiong Caihua; Sun Ronglei; Xiong Youlun;
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中图分类 TP3-53;
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入库时间 2022-08-21 04:15:10

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1. A rehabilitation robot with force-position hybrid fuzzy controller: hybrid fuzzy control of rehabilitation robot [J] . Ming-Shaung Ju, Lin C.-C.K., Dong-Huang Lin, IEEE transactions on neural systems and rehabilitation engineering . 2005,第3期

机译：具有力-位置混合模糊控制器的康复机器人：康复机器人的混合模糊控制
2. CHARACTERISTICS OF THE ROBOTIC JOINT OF A 9-DOF UPPER LIMB REHABILITATION ROBOT DRIVEN BY PNEUMATIC MUSCLES [J] . XIAN-ZHI JIANG, CAI-HUA XIONG, RONG-LEI SUN, International journal of humanoid robotics . 2011,第4期

机译：气动肌肉驱动的9自由度上肢康复机器人的机器人关节特征
3. Fuzzy neural network control of the rehabilitation robotic arm driven by pneumatic muscles [J] . Jiang Xianzhi, Wang Zenghuai, Zhang Chao, Industrial Robot . 2015,第1期

机译：气动肌肉驱动的康复机械臂的模糊神经网络控制
4. Fuzzy Hybrid Force-Position Control for the Robotic Arm of an Upper Limb Rehabilitation Robot Powered by Pneumatic Muscles [C] . Jiang Xianzhi, Xiong Caihua, Sun Ronglei, 2010 International Conference on E-Product E-Service and E-Entertainment . 2010

机译：气动肌肉驱动的上肢康复机器人机械臂的模糊混合力位置控制
5. Design and control of a 2 degree of freedom upper limb robotic rehabilitation device. [D] . Murphy, Patrick Joseph. 2013

机译：2自由度上肢机器人康复装置的设计和控制。
6. Is two better than one? Muscle vibration plus robotic rehabilitation to improve upper limb spasticity and function: A pilot randomized controlled trial [O] . Rocco Salvatore Calabrò, Antonino Naro, Margherita Russo, -1

机译：二比一好吗？肌肉振动加机器人康复以改善上肢痉挛和功能：一项随机对照试验
7. Recent Trends in Lower-Limb Robotic Rehabilitation Orthosis: Control Scheme and Strategy for Pneumatic Muscle Actuated Gait Trainers [O] . Mohd Azuwan Mat Dzahir, Shin-ichiroh Yamamoto 2014

机译：下肢机器人康复矫形器的最新趋势：气动肌肉驱动步态训练器的控制方案和策略

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

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