The university of Malta minimal anthropomorphic robot (UM-MAR) Hand II

2016 IEEE International Conference on Advanced Intelligent Mechatronics (AIM) Pub Date : 2016-07-12 DOI:10.1109/AIM.2016.7576795

Donald Dalli, M. Saliba

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引用次数: 3

Abstract

A minimal anthropomorphic robot hand is under development in the Faculty of Engineering at the University of Malta. The basic design is based on previous work in the faculty that has shown quantitatively that acceptable dexterity can potentially be achieved using a ten joint, eight degree-of-freedom hand that incorporates a thumb, two fingers, and effective touch sensing and hand control systems. The second test version of this hand, UM-MAR Hand II, has been built and is presented in this work. The approach taken in the development of this second prototype focusses on enhancing three fundamental and often conflicting attributes of compact multi-degree-of-freedom systems, identified as the simplicity, dexterity and usability of the device. In particular, extensive simulation work is carried out to optimize the fixed Denavit-Hartenberg parameters of the hand, as well as the joint ranges, in order to achieve human-like grasping dexterity with the reduced kinematic configuration. The design, development, construction and early evaluation of the UM-MAR Hand II are described in detail.

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马耳他大学最小拟人化机器人(UM-MAR) Hand II

马耳他大学工程学院正在开发一种最小的拟人化机器人手。基本的设计是基于先前的研究成果，该研究已经定量地表明，使用一个包含拇指、两个手指、有效的触摸传感和手部控制系统的十个关节、八个自由度的手，可以实现可接受的灵巧性。这个手的第二个测试版本，UM-MAR手II，已经建成，并在这项工作中提出。在开发第二个原型时所采取的方法侧重于增强紧凑型多自由度系统的三个基本且经常相互冲突的属性，即设备的简单性、灵活性和可用性。特别是，进行了大量的仿真工作，以优化手的固定Denavit-Hartenberg参数以及关节范围，从而在简化的运动学配置下实现类似人的抓取灵巧性。详细描述了ummar Hand II的设计、开发、建造和早期评估。

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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来源期刊

2016 IEEE International Conference on Advanced Intelligent Mechatronics (AIM)

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