The development of a Gesture Controlled Soft Robot gripping mechanism

2016 IEEE International Conference on Information and Automation for Sustainability (ICIAfS) Pub Date : 2016-12-01 DOI:10.1109/ICIAFS.2016.7946573

P. Gunawardane, Nimali T. Medagedara, B.G.D.A. Madusanka, S. Wijesinghe

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引用次数: 11

Abstract

Electro-mechanical and other conventional type grippers are often used in the industry to pick up and handle materials. In many applications the conventional type grippers are not effective enough to handle fragile and soft materials. In this research an elastomer based soft finger mechanism is introduced with hand gesture controlling as a gripping mechanism. Solid Works design of the mold was 3D printed and then using standard manufacturing procedures the Soft Fingers were developed. The Leap Motion Controller and Processing IDE were used to track three fingers and wrist of the hand to control Soft Fingers through the pneumatic control board. A Flex Sensor was used to get the feedback of the amount bent of the soft finger. Hand gestures and Soft fingers were interfaced by an Arduino controller. The testing was performed with three Soft Fingers that connected to imitate Thumb, Index and Middle fingers of hand. The final design was able to imitate the fingers but required more fine tuning to apply for a complex area.

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手势控制软机器人夹持机构的研制

机电和其他传统类型的抓手在工业中经常用于捡起和处理材料。在许多应用中，传统的抓手不能有效地处理易碎和柔软的材料。本文介绍了一种基于弹性体的软指机构，该机构采用手势控制作为抓握机构。Solid Works的模具设计是3D打印的，然后使用标准的制造程序开发了软手指。利用Leap运动控制器和Processing IDE跟踪手的三根手指和手腕，通过气动控制板控制“软手指”。使用flexsensor来获得柔软手指弯曲量的反馈。手势和柔软的手指由Arduino控制器连接。测试是用三个柔软的手指连接来模仿手的拇指，食指和中指。最终的设计能够模仿手指，但需要更多的微调，以适用于复杂的区域。

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2016 IEEE International Conference on Information and Automation for Sustainability (ICIAfS)

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