Design and Evaluation of a Wearable Skin Stretch Device for Haptic Guidance

We present a wearable skin stretch device for the forearm. It is composed of four cylindrical end effectors, evenly distributed around the user's forearm. They can generate independent skin stretch stimuli at the palmar, dorsal, ulnar, and radial sides of the arm. When the four end effectors ro...

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Bibliographic Details
Published inIEEE robotics and automation letters Vol. 3; no. 1; pp. 524 - 531
Main Authors Chinello, Francesco, Pacchierotti, Claudio, Bimbo, Joao, Tsagarakis, Nikos G., Prattichizzo, Domenico
Format Journal Article
LanguageEnglish
Published Piscataway IEEE 01.01.2018
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Computer Science
End effectors
Feedback
Force
Forearm
Haptic interfaces
Haptics and haptic interfaces
human-centered robotics
Human-computer interaction
Navigation
Overloading
Performance evaluation
Robot arms
Robot control
Robotics
Skin
Stimuli
telerobotics and teleoperation
Wearable technology
Wrist
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Summary:We present a wearable skin stretch device for the forearm. It is composed of four cylindrical end effectors, evenly distributed around the user's forearm. They can generate independent skin stretch stimuli at the palmar, dorsal, ulnar, and radial sides of the arm. When the four end effectors rotate in the same direction, the wearable device provides cutaneous stimuli about a desired pronation/supination of the forearm. On the other hand, when two opposite end effectors rotate in different directions, the cutaneous device provides cutaneous stimuli about a desired translation of the forearm. To evaluate the effectiveness of our device in providing navigation information, we carried out two experiments of haptic navigation. In the first one, subjects were asked to translate and rotate the forearm toward a target position and orientation, respectively. In the second experiment, subjects were asked to control a 6-DoF robotic manipulator to grasp and lift a target object. Haptic feedback provided by our wearable device improved the performance of both experiments with respect to providing no haptic feedback. Moreover, it showed similar performance with respect to sensory substitution via visual feedback, without overloading the visual channel.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
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ISSN:2377-3766
2377-3766
DOI:10.1109/LRA.2017.2766244