Comparing Physical Human-Robot Interaction with Spring-and Elastomer-Based Series Elastic Actuators

Comparing Physical Human-Robot Interaction with Spring-and Elastomer-Based Series Elastic Actuators

Physical human-robot interaction (pHRI) is an important consideration in the design of rehabilitation exoskeletons. Series Elastic Actuators (SEAs) are seen as a promising method of introducing compliance and comfort to robotic exoskeletons. Recently, authors have proposed the use of elastomers in S...

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Bibliographic Details
Published in:2018 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) Vol. 2018; pp. 1697 - 1700
Main Authors: Jarrett, Christopher, McDaid, A. J.
Format: Conference Proceeding Journal Article
Language:English
Published: United States IEEE 01-07-2018
Subjects:
Acceleration
Games
Springs
Task analysis
Trajectory tracking
Wrist
Online Access:Get full text
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Summary:Physical human-robot interaction (pHRI) is an important consideration in the design of rehabilitation exoskeletons. Series Elastic Actuators (SEAs) are seen as a promising method of introducing compliance and comfort to robotic exoskeletons. Recently, authors have proposed the use of elastomers in SEAs, rather than springs, but there is a dearth of literature comparing how the two compliant elements are perceived by humans. In this paper, we quantitatively and qualitatively compare human interaction with an elastomer and a spring in terms of comfort and motion smoothness, with the aim of informing future SEA design. Two mechanisms were designed to compare human interaction with a spring and elastomer, and a cross-over experimental design was used to help eliminate any learning effects. Overall, the elastomer appeared to be slightly more comfortable and allow slightly smoother motion than the spring, holding promise for the use of elastomers as a means of improving pHRI in exoskeletons actuated by SEAs.
ISSN:1557-170X
1558-4615
DOI:10.1109/EMBC.2018.8512659