Anthropometry-based structural design of a hand exoskeleton for rehabilitation

机译：基于人体测量学的手外骨骼结构设计

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We propose a novel exoskeleton for grasping hand rehabilitation based on anthropometry. The proposed design has one degree of freedom (DOF) for each finger, yielding coordinated movement across the distal interphalangeal (DIP), proximal interphalangeal (PIP), and metacarpophalangeal (MCP) joints for each finger. The dimension of each segment is determined by hand anthropometric data obtained from measurements. Each finger is controlled by one motor to allow for independent movement of each finger, which is fundamental for hand dexterity. The design was guided by a proposed mechanical model (the exo-finger model) which was verified by simulation and validated by the movement recorded by prototype fingers. It is concluded that, in the present study, anthropometry-based structural design provides a framework for the development of exoskeletal robotic devices.

机译：我们提出了一种新颖的外骨骼，可用于基于人体测量学的手部康复训练。所提出的设计为每个手指具有一个自由度（DOF），从而在每个手指上产生跨远端指间关节（DIP），近端指间关节（PIP）和掌指关节（MCP）关节的协调运动。每个片段的尺寸由通过测量获得的手工人体测量数据确定。每个手指由一个马达控制，以允许每个手指独立移动，这对于手的敏捷性至关重要。该设计由建议的机械模型（外指模型）指导，该模型通过仿真进行了验证，并通过原型手指记录的运动进行了验证。结论是，在本研究中，基于人体测量学的结构设计为骨骼外机器人设备的开发提供了框架。

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《International Conference on Mechatronics and Machine Vision in Practice》|2016年|1-6|共6页
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Shu-Wei Pu; Jen-Yuan Chang; Yu-Cheng Pei; Chia-Chen Kuo; Mao-Jiun Wang;
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Thumb; Exoskeletons; Couplings; Read only memory; Electronics packaging; Robots;

机译：拇指;外骨骼;联轴器;只读存储器;电子封装;机器人;

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1. Design Requirements of Generic Hand Exoskeletons and Survey of Hand Exoskeletons for Rehabilitation, Assistive, or Haptic Use [J] . Sarac Mine, Solazzi Massimiliano, Frisoli Antonio Haptics, IEEE Transactions on . 2019,第4期

机译：通用手术前骨骼和康复，辅助或触觉用途手术前骨骼调查的设计要求
2. Design and development of a hand exoskeleton for rehabilitation of hand injuries [J] . Fuhai Zhang, Lei Hua, Yili Fu, Mechanism and Machine Theory: Dynamics of Machine Systems Gears and Power Trandmissions Robots and Manipulator Systems Computer-Aided Design Methods . 2014,第Null期

机译：用于手部损伤康复的手外骨骼的设计和开发
3. Exoskeleton design and adaptive compliance control for hand rehabilitation [J] . Transactions of the Institute of Measurement and Control . 2020,第3期

机译：外骨骼设计和自适应合规控制，用于手工康复
4. Anthropometry-Based Structural Design of a Hand Exoskeleton for Rehabilitation [C] . Shu-Wei Pu, Jen-Yuan Chang, Chia-Chen Kuo, International Conference on Mechatronics and Machine Vision in Practice . 2016

机译：基于人的康复的手骨骼的结构设计
5. Design of a Dexterous Three-Fingered Hand Exoskeleton for Stroke Patient Rehabilitation. [D] . Dimapasoc, Brando. 2017

机译：用于中风患者康复的灵巧三指手外骨骼的设计。
6. Design and Development of the Cable Actuated Finger Exoskeleton for Hand Rehabilitation Following Stroke [O] . Christopher L. Jones, Furui Wang, Robert Morrison, -1

机译：卒中后手部康复手指外骨骼的设计与开发
7. Design Requirements of Generic Hand Exoskeletons and Survey of Hand Exoskeletons for Rehabilitation, Assistive, or Haptic Use [O] . Mine Sarac, Massimiliano Solazzi, Antonio Frisoli 2019

机译：通用手术前骨骼和康复，辅助或触觉用途手术前骨骼调查的设计要求

Anthropometry-based structural design of a hand exoskeleton for rehabilitation

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