The Myosuit: Bi-articular Anti-gravity Exosuit That Reduces Hip Extensor Activity in Sitting Transfers

The Myosuit: Bi-articular Anti-gravity Exosuit That Reduces Hip Extensor Activity in Sitting Transfers

Muscle weakness—which can result from neurological injuries, genetic disorders, or typical aging—can affect a person's mobility and quality of life. For many people with muscle weakness, assistive devices provide the means to regain mobility and independence. These devices range from well-estab...

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Bibliographic Details
Main Authors: Kai Schmidt, Jaime E. Duarte, Martin Grimmer, Alejandro Sancho-Puchades, Haiqi Wei, Chris S. Easthope, Robert Riener
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-10-01
Series:Frontiers in Neurorobotics
Subjects:
Myosuit
exomuscle
exosuit
anti-gravity
assistance
wearable
Online Access:http://journal.frontiersin.org/article/10.3389/fnbot.2017.00057/full
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spelling doaj-7cd7fe1f9e4148679b9551406bbb36272020-11-24T23:03:49ZengFrontiers Media S.A.Frontiers in Neurorobotics1662-52182017-10-011110.3389/fnbot.2017.00057267403The Myosuit: Bi-articular Anti-gravity Exosuit That Reduces Hip Extensor Activity in Sitting TransfersKai Schmidt0Kai Schmidt1Jaime E. Duarte2Jaime E. Duarte3Martin Grimmer4Martin Grimmer5Alejandro Sancho-Puchades6Alejandro Sancho-Puchades7Haiqi Wei8Chris S. Easthope9Robert Riener10Robert Riener11Sensory-Motor Systems Lab, Department of Health Sciences and Technology, Institute of Robotics and Intelligent Systems, ETH Zurich, Zurich, SwitzerlandSpinal Cord Injury Center, University Hospital Balgrist, University of Zurich, Zurich, SwitzerlandSensory-Motor Systems Lab, Department of Health Sciences and Technology, Institute of Robotics and Intelligent Systems, ETH Zurich, Zurich, SwitzerlandSpinal Cord Injury Center, University Hospital Balgrist, University of Zurich, Zurich, SwitzerlandSensory-Motor Systems Lab, Department of Health Sciences and Technology, Institute of Robotics and Intelligent Systems, ETH Zurich, Zurich, SwitzerlandSpinal Cord Injury Center, University Hospital Balgrist, University of Zurich, Zurich, SwitzerlandSensory-Motor Systems Lab, Department of Health Sciences and Technology, Institute of Robotics and Intelligent Systems, ETH Zurich, Zurich, SwitzerlandSpinal Cord Injury Center, University Hospital Balgrist, University of Zurich, Zurich, SwitzerlandSensory-Motor Systems Lab, Department of Health Sciences and Technology, Institute of Robotics and Intelligent Systems, ETH Zurich, Zurich, SwitzerlandSpinal Cord Injury Center, University Hospital Balgrist, University of Zurich, Zurich, SwitzerlandSensory-Motor Systems Lab, Department of Health Sciences and Technology, Institute of Robotics and Intelligent Systems, ETH Zurich, Zurich, SwitzerlandSpinal Cord Injury Center, University Hospital Balgrist, University of Zurich, Zurich, SwitzerlandMuscle weakness—which can result from neurological injuries, genetic disorders, or typical aging—can affect a person's mobility and quality of life. For many people with muscle weakness, assistive devices provide the means to regain mobility and independence. These devices range from well-established technology, such as wheelchairs, to newer technologies, such as exoskeletons and exosuits. For assistive devices to be used in everyday life, they must provide assistance across activities of daily living (ADLs) in an unobtrusive manner. This article introduces the Myosuit, a soft, wearable device designed to provide continuous assistance at the hip and knee joint when working with and against gravity in ADLs. This robotic device combines active and passive elements with a closed-loop force controller designed to behave like an external muscle (exomuscle) and deliver gravity compensation to the user. At 4.1 kg (4.6 kg with batteries), the Myosuit is one of the lightest untethered devices capable of delivering gravity support to the user's knee and hip joints. This article presents the design and control principles of the Myosuit. It describes the textile interface, tendon actuators, and a bi-articular, synergy-based approach for continuous assistance. The assistive controller, based on bi-articular force assistance, was tested with a single subject who performed sitting transfers, one of the most gravity-intensive ADLs. The results show that the control concept can successfully identify changes in the posture and assist hip and knee extension with up to 26% of the natural knee moment and up to 35% of the knee power. We conclude that the Myosuit's novel approach to assistance using a bi-articular architecture, in combination with the posture-based force controller, can effectively assist its users in gravity-intensive ADLs, such as sitting transfers.http://journal.frontiersin.org/article/10.3389/fnbot.2017.00057/fullMyosuitexomuscleexosuitanti-gravityassistancewearable
collection DOAJ
language English
format Article
sources DOAJ
author Kai Schmidt
Kai Schmidt
Jaime E. Duarte
Jaime E. Duarte
Martin Grimmer
Martin Grimmer
Alejandro Sancho-Puchades
Alejandro Sancho-Puchades
Haiqi Wei
Chris S. Easthope
Robert Riener
Robert Riener
spellingShingle Kai Schmidt
Kai Schmidt
Jaime E. Duarte
Jaime E. Duarte
Martin Grimmer
Martin Grimmer
Alejandro Sancho-Puchades
Alejandro Sancho-Puchades
Haiqi Wei
Chris S. Easthope
Robert Riener
Robert Riener
The Myosuit: Bi-articular Anti-gravity Exosuit That Reduces Hip Extensor Activity in Sitting Transfers
Frontiers in Neurorobotics
Myosuit
exomuscle
exosuit
anti-gravity
assistance
wearable
author_facet Kai Schmidt
Kai Schmidt
Jaime E. Duarte
Jaime E. Duarte
Martin Grimmer
Martin Grimmer
Alejandro Sancho-Puchades
Alejandro Sancho-Puchades
Haiqi Wei
Chris S. Easthope
Robert Riener
Robert Riener
author_sort Kai Schmidt
title The Myosuit: Bi-articular Anti-gravity Exosuit That Reduces Hip Extensor Activity in Sitting Transfers
title_short The Myosuit: Bi-articular Anti-gravity Exosuit That Reduces Hip Extensor Activity in Sitting Transfers
title_full The Myosuit: Bi-articular Anti-gravity Exosuit That Reduces Hip Extensor Activity in Sitting Transfers
title_fullStr The Myosuit: Bi-articular Anti-gravity Exosuit That Reduces Hip Extensor Activity in Sitting Transfers
title_full_unstemmed The Myosuit: Bi-articular Anti-gravity Exosuit That Reduces Hip Extensor Activity in Sitting Transfers
title_sort myosuit: bi-articular anti-gravity exosuit that reduces hip extensor activity in sitting transfers
publisher Frontiers Media S.A.
series Frontiers in Neurorobotics
issn 1662-5218
publishDate 2017-10-01
description Muscle weakness—which can result from neurological injuries, genetic disorders, or typical aging—can affect a person's mobility and quality of life. For many people with muscle weakness, assistive devices provide the means to regain mobility and independence. These devices range from well-established technology, such as wheelchairs, to newer technologies, such as exoskeletons and exosuits. For assistive devices to be used in everyday life, they must provide assistance across activities of daily living (ADLs) in an unobtrusive manner. This article introduces the Myosuit, a soft, wearable device designed to provide continuous assistance at the hip and knee joint when working with and against gravity in ADLs. This robotic device combines active and passive elements with a closed-loop force controller designed to behave like an external muscle (exomuscle) and deliver gravity compensation to the user. At 4.1 kg (4.6 kg with batteries), the Myosuit is one of the lightest untethered devices capable of delivering gravity support to the user's knee and hip joints. This article presents the design and control principles of the Myosuit. It describes the textile interface, tendon actuators, and a bi-articular, synergy-based approach for continuous assistance. The assistive controller, based on bi-articular force assistance, was tested with a single subject who performed sitting transfers, one of the most gravity-intensive ADLs. The results show that the control concept can successfully identify changes in the posture and assist hip and knee extension with up to 26% of the natural knee moment and up to 35% of the knee power. We conclude that the Myosuit's novel approach to assistance using a bi-articular architecture, in combination with the posture-based force controller, can effectively assist its users in gravity-intensive ADLs, such as sitting transfers.
topic Myosuit
exomuscle
exosuit
anti-gravity
assistance
wearable
url http://journal.frontiersin.org/article/10.3389/fnbot.2017.00057/full
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