Tactile Myography: An Off-Line Assessment of Able-Bodied Subjects and One Upper-Limb Amputee

Human-machine interfaces to control prosthetic devices still suffer from scarce dexterity and low reliability; for this reason, the community of assistive robotics is exploring novel solutions to the problem of myocontrol. In this work, we present experimental results pointing in the direction that...

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Published in	Technologies (Basel) Vol. 6; no. 2; p. 38
Main Authors	Castellini, Claudio, Kõiva, Risto, Pasluosta, Cristian, Viegas, Carla, Eskofier, Björn
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.06.2018
Subjects	Amputation assistive robotics Classification Classifiers Electromyography Experiments Forearm human-machine interfaces International conferences Man-machine interfaces Pattern recognition Prostheses Robotics Sensors Tactile discrimination tactile myography tactile sensing Ultrasonic imaging upper-limb prosthetics Wrist Canada United States > US Germany
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ISSN	2227-7080 2227-7080
DOI	10.3390/technologies6020038

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Abstract	Human-machine interfaces to control prosthetic devices still suffer from scarce dexterity and low reliability; for this reason, the community of assistive robotics is exploring novel solutions to the problem of myocontrol. In this work, we present experimental results pointing in the direction that one such method, namely Tactile Myography (TMG), can improve the situation. In particular, we use a shape-conformable high-resolution tactile bracelet wrapped around the forearm/residual limb to discriminate several wrist and finger activations performed by able-bodied subjects and a trans-radial amputee. Several combinations of features/classifiers were tested to discriminate among the activations. The balanced accuracy obtained by the best classifier/feature combination was on average 89.15% (able-bodied subjects) and 88.72% (amputated subject); when considering wrist activations only, the results were on average 98.44% for the able-bodied subjects and 98.72% for the amputee. The results obtained from the amputee were comparable to those obtained by the able-bodied subjects. This suggests that TMG is a viable technique for myoprosthetic control, either as a replacement of or as a companion to traditional surface electromyography.
AbstractList	Human-machine interfaces to control prosthetic devices still suffer from scarce dexterity and low reliability; for this reason, the community of assistive robotics is exploring novel solutions to the problem of myocontrol. In this work, we present experimental results pointing in the direction that one such method, namely Tactile Myography (TMG), can improve the situation. In particular, we use a shape-conformable high-resolution tactile bracelet wrapped around the forearm/residual limb to discriminate several wrist and finger activations performed by able-bodied subjects and a trans-radial amputee. Several combinations of features/classifiers were tested to discriminate among the activations. The balanced accuracy obtained by the best classifier/feature combination was on average 89.15% (able-bodied subjects) and 88.72% (amputated subject); when considering wrist activations only, the results were on average 98.44% for the able-bodied subjects and 98.72% for the amputee. The results obtained from the amputee were comparable to those obtained by the able-bodied subjects. This suggests that TMG is a viable technique for myoprosthetic control, either as a replacement of or as a companion to traditional surface electromyography.
Author	Kõiva, Risto Castellini, Claudio Eskofier, Björn Viegas, Carla Pasluosta, Cristian
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SubjectTerms	Amputation assistive robotics Classification Classifiers Electromyography Experiments Forearm human-machine interfaces International conferences Man-machine interfaces Pattern recognition Prostheses Robotics Sensors Tactile discrimination tactile myography tactile sensing Ultrasonic imaging upper-limb prosthetics Wrist
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Title	Tactile Myography: An Off-Line Assessment of Able-Bodied Subjects and One Upper-Limb Amputee
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