Optimizing the interoperability between a video-oculagraphic and an electromyographic system

Javier Navallas; Mikel Ariz; Arantxa Villanueva; Javier San Agustin; Rafael Cabeza

Optimizing the interoperability between a video-oculagraphic and an electromyographic system

Javier Navallas, Mikel Ariz, Arantxa Villanueva, Javier San Agustin, Rafael Cabeza

Public University of Navarra

Research output: Journal Article or Conference Article in Journal › Journal article › Research › peer-review

Abstract

A new system is presented that enhances the interoperability between a video-oculographic (VOG) system for mouse movement control and an electromyographic (EMG) system for mouse click detection. The proposed VOG-EMG system combines gaze and muscle information to minimize the number of undesired clicks due to involuntary activations and environmental noise. We tested the system with 24 subjects, comparing three different configurations: one in which the VOG and EMG systems worked independently and two in which we used VOG gaze information to improve the EMG click detection. Results show that the number of false-positive click detections can be reduced when VOG and EMG information is combined. In addition, the third configuration, including extra processing, can reduce the activation delay produced because of the combined use of the VOG and EMG systems. The new VOG-EMG system is meant to be used in noisy environments in which the number of false clicks may impeach a reliable human-computer interaction.

Original language	English
Journal	Journal of Rehabilitation Research and Development
Volume	48
Issue number	3
Pages (from-to)	253 — 266
ISSN	0748-7711
Publication status	Published - 2012

Keywords

eye tracking
gaze interaction
human-computer interface
Midas touch
motor control
multimodal interface
onset detection
rehabilitation
severe motor impairment
surface electromyography
video-oculography

Cite this

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title = "Optimizing the interoperability between a video-oculagraphic and an electromyographic system",

abstract = "A new system is presented that enhances the interoperability between a video-oculographic (VOG) system for mouse movement control and an electromyographic (EMG) system for mouse click detection. The proposed VOG-EMG system combines gaze and muscle information to minimize the number of undesired clicks due to involuntary activations and environmental noise. We tested the system with 24 subjects, comparing three different configurations: one in which the VOG and EMG systems worked independently and two in which we used VOG gaze information to improve the EMG click detection. Results show that the number of false-positive click detections can be reduced when VOG and EMG information is combined. In addition, the third configuration, including extra processing, can reduce the activation delay produced because of the combined use of the VOG and EMG systems. The new VOG-EMG system is meant to be used in noisy environments in which the number of false clicks may impeach a reliable human-computer interaction.",

keywords = "eye tracking, gaze interaction, human-computer interface, Midas touch, motor control, multimodal interface, onset detection, rehabilitation, severe motor impairment, surface electromyography, video-oculography, eye tracking, gaze interaction, human-computer interface, Midas touch, motor control, multimodal interface, onset detection, rehabilitation, severe motor impairment, surface electromyography, video-oculography",

author = "Javier Navallas and Mikel Ariz and Arantxa Villanueva and {San Agustin}, Javier and Rafael Cabeza",

year = "2012",

language = "English",

volume = "48",

pages = "253 — 266",

journal = "Journal of Rehabilitation Research and Development",

issn = "0748-7711",

publisher = "Veterans Health Administration",

number = "3",

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TY - JOUR

T1 - Optimizing the interoperability between a video-oculagraphic and an electromyographic system

AU - Navallas, Javier

AU - Ariz, Mikel

AU - Villanueva, Arantxa

AU - San Agustin, Javier

AU - Cabeza, Rafael

PY - 2012

Y1 - 2012

N2 - A new system is presented that enhances the interoperability between a video-oculographic (VOG) system for mouse movement control and an electromyographic (EMG) system for mouse click detection. The proposed VOG-EMG system combines gaze and muscle information to minimize the number of undesired clicks due to involuntary activations and environmental noise. We tested the system with 24 subjects, comparing three different configurations: one in which the VOG and EMG systems worked independently and two in which we used VOG gaze information to improve the EMG click detection. Results show that the number of false-positive click detections can be reduced when VOG and EMG information is combined. In addition, the third configuration, including extra processing, can reduce the activation delay produced because of the combined use of the VOG and EMG systems. The new VOG-EMG system is meant to be used in noisy environments in which the number of false clicks may impeach a reliable human-computer interaction.

AB - A new system is presented that enhances the interoperability between a video-oculographic (VOG) system for mouse movement control and an electromyographic (EMG) system for mouse click detection. The proposed VOG-EMG system combines gaze and muscle information to minimize the number of undesired clicks due to involuntary activations and environmental noise. We tested the system with 24 subjects, comparing three different configurations: one in which the VOG and EMG systems worked independently and two in which we used VOG gaze information to improve the EMG click detection. Results show that the number of false-positive click detections can be reduced when VOG and EMG information is combined. In addition, the third configuration, including extra processing, can reduce the activation delay produced because of the combined use of the VOG and EMG systems. The new VOG-EMG system is meant to be used in noisy environments in which the number of false clicks may impeach a reliable human-computer interaction.

KW - eye tracking

KW - gaze interaction

KW - human-computer interface

KW - Midas touch

KW - motor control

KW - multimodal interface

KW - onset detection

KW - rehabilitation

KW - severe motor impairment

KW - surface electromyography

KW - video-oculography

KW - eye tracking

KW - gaze interaction

KW - human-computer interface

KW - Midas touch

KW - motor control

KW - multimodal interface

KW - onset detection

KW - rehabilitation

KW - severe motor impairment

KW - surface electromyography

KW - video-oculography

M3 - Journal article

SN - 0748-7711

VL - 48

SP - 253 — 266

JO - Journal of Rehabilitation Research and Development

JF - Journal of Rehabilitation Research and Development

IS - 3

ER -

Optimizing the interoperability between a video-oculagraphic and an electromyographic system

Abstract

Keywords

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