A virtual trainer concept for robot-assisted human motor learning in rowing

A virtual trainer concept for robot-assisted human motor learning in rowing

Keeping the attention level and observing multiple physiological and biomechanical variables at the same time at high precision is very challenging for human trainers. Concurrent augmented feedback, which is suggested to enhance motor learning in complex motor tasks, can also hardly be provided by a...

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Main Authors: Baumgartner L., Baur K., Sigrist R., Rauter G., Riener R., Wolf P.
Format: Article
Language:English
Published: EDP Sciences 2011-12-01
Series:BIO Web of Conferences
Online Access:http://dx.doi.org/10.1051/bioconf/20110100072
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spelling doaj-1ac45944f4d1491996d5f4badbd997502021-04-02T18:42:25ZengEDP SciencesBIO Web of Conferences2117-44582011-12-0110007210.1051/bioconf/20110100072A virtual trainer concept for robot-assisted human motor learning in rowingBaumgartner L.Baur K.Sigrist R.Rauter G.Riener R.Wolf P.Keeping the attention level and observing multiple physiological and biomechanical variables at the same time at high precision is very challenging for human trainers. Concurrent augmented feedback, which is suggested to enhance motor learning in complex motor tasks, can also hardly be provided by a human trainer. Thus, in this paper, a concept for a virtual trainer is presented that may overcome the limits of a human trainer. The intended virtual trainer will be implemented in a CAVE providing auditory, visual and haptic cues. As a first application, the virtual trainer will be used in a realistic scenario for sweep rowing. To provide individual feedback to each rower, the virtual trainer quantifies errors and provides concurrent auditory, visual, and haptic feedback. The concurrent feedback will be adapted according to the actual performance, individual maximal rowing velocity, and the athlete’s individual perception.http://dx.doi.org/10.1051/bioconf/20110100072
collection DOAJ
language English
format Article
sources DOAJ
author Baumgartner L.
Baur K.
Sigrist R.
Rauter G.
Riener R.
Wolf P.
spellingShingle Baumgartner L.
Baur K.
Sigrist R.
Rauter G.
Riener R.
Wolf P.
A virtual trainer concept for robot-assisted human motor learning in rowing
BIO Web of Conferences
author_facet Baumgartner L.
Baur K.
Sigrist R.
Rauter G.
Riener R.
Wolf P.
author_sort Baumgartner L.
title A virtual trainer concept for robot-assisted human motor learning in rowing
title_short A virtual trainer concept for robot-assisted human motor learning in rowing
title_full A virtual trainer concept for robot-assisted human motor learning in rowing
title_fullStr A virtual trainer concept for robot-assisted human motor learning in rowing
title_full_unstemmed A virtual trainer concept for robot-assisted human motor learning in rowing
title_sort virtual trainer concept for robot-assisted human motor learning in rowing
publisher EDP Sciences
series BIO Web of Conferences
issn 2117-4458
publishDate 2011-12-01
description Keeping the attention level and observing multiple physiological and biomechanical variables at the same time at high precision is very challenging for human trainers. Concurrent augmented feedback, which is suggested to enhance motor learning in complex motor tasks, can also hardly be provided by a human trainer. Thus, in this paper, a concept for a virtual trainer is presented that may overcome the limits of a human trainer. The intended virtual trainer will be implemented in a CAVE providing auditory, visual and haptic cues. As a first application, the virtual trainer will be used in a realistic scenario for sweep rowing. To provide individual feedback to each rower, the virtual trainer quantifies errors and provides concurrent auditory, visual, and haptic feedback. The concurrent feedback will be adapted according to the actual performance, individual maximal rowing velocity, and the athlete’s individual perception.
url http://dx.doi.org/10.1051/bioconf/20110100072
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