Armband with Soft Robotic Actuators and Vibrotactile Stimulators for Bimodal Haptic Feedback from a Dexterous Artificial Hand.

Moaed A Abd, Michael Bornstein, Emmanuelle Tognoli, Erik D Engeberg
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Abstract

The haptic sense relies upon a plurality of receptors and pathways to produce a complex perceptual experience of contact, pressure, taps, vibrations and flutters. This complexity is yet to be reproduced in haptic feedback interfaces that are used by people controlling a dexterous robotic hand, be it for limb-absence or teleoperation. The goal of the present bimodal haptic armband is to convey both low-frequency pressure changes and high-frequency vibrations from a dexterous robotic hand to a human's upper arm, so as to guide his/her control of the artificial limb. To that end, we design and manufacture four novel soft robotic armbands combining inflatable air chambers and vibrotactile stimulators. We develop control systems for both pathways. We conduct a series of benchtop tests to determine the pneumatic and vibrotactile performance and select from competing designs and materials. We test two of the resulting bimodal haptic armband on human subjects and confirm their ability to use both aspects of this haptic information. Arguing that dexterous artificial hands are presently not used to their fullest capability by the dearth of haptic information in users, this work aims to achieve a more realistic tactile experience for a fluent, more natural usage of robotic artificial hands.

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带有软机器人致动器和振动触觉刺激器的臂带,可从灵巧的人造手获得双模触觉反馈。
触觉依靠多个感受器和通路来产生接触、压力、敲击、振动和飘动等复杂的感知体验。这种复杂性还有待于在触觉反馈界面中再现,以便人们控制灵巧的机器人手,无论是肢体缺失还是远程操作。本双模触觉臂带的目标是将灵巧机械手的低频压力变化和高频振动传递到人的上臂,从而引导人对假肢的控制。为此,我们设计并制造了四种结合了充气气室和振动触觉刺激器的新型软机器人臂带。我们为这两种途径开发了控制系统。我们进行了一系列台式测试,以确定气动和振动性能,并从竞争设计和材料中进行选择。我们在人类受试者身上测试了两个由此产生的双模触觉臂带,并确认他们能够同时使用这两方面的触觉信息。我们认为,由于用户缺乏触觉信息,灵巧的人工手目前还不能充分发挥其能力,因此这项工作旨在实现更逼真的触觉体验,使机器人人工手的使用更流畅、更自然。
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