Development of a self-contained robotic hand with dexterous grasping capabilities for research applications

IF 1 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

SAIEE Africa Research Journal Pub Date : 2023-08-09 DOI:10.23919/SAIEE.2023.10214228

Samantha Woods;Callen Fisher

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Abstract

Thumb loss can diminish one's hand's functionality by up to 40% and the loss of one's entire hand can severely impact a person's ability to perform simple day-to-day tasks. Therefore, there exists a need to focus on the development of a thumb mechanism which supports dexterous grasping activities in anthropomorphic robotic hands. This paper documents the design process of a novel robotic hand, and shows experimental results validating its overall performance. A large focus was placed on developing a novel thumb mechanism which could replicate the thumb's characteristic movement types, namely flexion-extension, abduction-adduction, and oppositionreposition. Additional focus was placed on developing a mechanism for flexion-extension movement of the fingers which did not incorporate passive components and on producing a fully self-contained prototype — with the electronics and actuators contained inside the palm, and the power supply inset against the back of the palm. The hand successfully followed motion commands from a sensor glove, and was able to replicate 14 grasp configurations which demonstrated its dexterous grasping abilities.

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开发一种具有灵巧抓握能力的自主机械手，用于研究应用

拇指的缺失会使一只手的功能下降40%，整只手的缺失会严重影响一个人执行简单日常任务的能力。因此，有必要专注于开发一种拇指机构，该机构支持拟人化机器人手的灵巧抓握活动。本文记录了一种新型机械手的设计过程，并展示了验证其整体性能的实验结果。重点是开发一种新的拇指机制，该机制可以复制拇指的特征运动类型，即屈曲-伸展、外展-内收和反向复位。另外的重点是开发一种不包含被动组件的手指屈伸运动机制，并生产一个完全独立的原型——电子设备和致动器包含在手掌内，电源嵌入手掌背面。这只手成功地遵循了传感器手套的运动命令，并能够复制14种抓握配置，这证明了它灵巧的抓握能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SAIEE Africa Research Journal ENGINEERING, ELECTRICAL & ELECTRONIC-

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