&lt;title&gt;Human interaction with wearable computer systems: a look at glasses-mounted displays&lt;/title&gt;

Revels, Allen R.; Quill, Laurie L.; Kancler, David E.; Masquelier, Barbara L.

doi:10.1117/12.321805

Cited by 4 publications

(2 citation statements)

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“…The use of wearable computer system for United States Air Force (USAF) maintenance applications promises to improve technician performance and reduce aircraft downtime by directly providing electronic technical orders (TOs) to the maintainer regardless of his location (Friend & Grinstead, 1992;Kancler & Quill, 1997;Masquelier, 1991;Revels, Quill, Kancler & Masquelier, 1998;Webb, 1997). However, many maintenance activities require the use of both of the maintainer's hands; therefore, conventional input devices for these wearable system are inadequate for computer control.…”

Section: Introductionmentioning

confidence: 99%

The Use of Voice and Head-Tracking for Hands-Free Human-Computer Interaction

Kancler

Gorman

Revels

2002

Proceedings of the Human Factors and Ergonomics Society Annual

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This Practitioner Paper discusses the second in a series of studies examining the Voice Head Integrated Control (VHIC) suite, which combines use of voice commands and a head-tracking device as an alternative to the mouse and keyboard. This VHIC system is currently being investigated as a hands-free interface for accessing digitized aircraft technical manuals. The present study was conducted to validate the voice command vocabulary and provide an initial evaluation of the VHIC hardware. Aircraft maintainers from the 445th C-141 Air Force Reserve Unit served as subjects. The current study made use of the fully functioning VHIC system, complete with head-tracking and voice recognition capabilities. User strategies followed on-screen interface characteristics and the user's experience level with computers. Several error categories were tracked and subjective feedback was collected. A series of recommendations are presented which address the strategic application of the VHIC system in an aircraft maintenance environment.

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Section: Introductionmentioning

confidence: 99%

The Use of Voice and Head-Tracking for Hands-Free Human-Computer Interaction

Kancler

Gorman

Revels

2002

Proceedings of the Human Factors and Ergonomics Society Annual

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“…To date the primary focus of research and development on wearable computers by the Air Force Research Laboratory Logistics Readiness Branch (AFRL/HESR) has been on display development and presentation formats (Friend & Grinstead, 1992;Kancler & Quill, 1997;Masquelier, 1991;Revels, Quill, Kancler & Masquelier, 1998;Webb, 1997). However, to fully exploit the potential advantages of the wearable computer as a maintenance aiding system, research and development must integrate hands-free control technology.…”

Section: Introductionmentioning

confidence: 99%

Comparison of Hands-Free versus Conventional Wearable Computer Control for Maintenance Applications

McMillan

Calhoun

Masquelier

et al. 1999

Proceedings of the Human Factors and Ergonomics Society Annual

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Public reporting burden for this collection of information is estimated to average 1 hour per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection of information. Send comments regarding this burden estimate or any other aspect of tttis collection of information, including suggestions for reducing this burden, to Washington Headquarters Services, Directorate Past research on wearable computers for maintenance applications has focused on developing displays and presentation formats. This study emphasized wearable computer control technologies. Alternative control technologies were compared with standard and voice controls. Twelve subjects performed a synthetic maintenance task using three control device combinations for three different types of input. Time and error data were collected. The results show that for pointer movement, standard controls took significantly longer than voice. For discrete input, standard controls required significantly more time than voice and alternative controls. However, there were no significant time differences among controllers for text entry fill-in. Error results showed no significant differences. This research suggests that alternative and voice controls provide similar performance levels and both are superior to standard controls. In environments with changing noise spectra and noise levels such as a flight line, the alternative control suite provides hands-free control that complements voice without sacrificing performance. Past research on wearable computers for maintenance applications has focused on developing displays and presentation formats. This study emphasized wearable computer control technologies. Alternative control technologies were compared with standard and voice controls. Twelve subjects performed a synthetic maintenance task using three control device combinations for three different types of input. Time and error data were collected. The results show that for pointer movement, standard controls took significantly longer than voice. For discrete input, standard controls required significantly more time than voice and alternative controls. However, there were no significant time differences among controllers for text entry fill-in. Error results showed no significant differences. This research suggests that alternative and voice controls provide similar performance levels and both are superior to standard controls. In environments with changing noise spectra and noise levels such as a flight line, the alternative control suite provides hands-free control that complements voice without sacrificing performance. SUBJECT TERMS

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The rise of wearables: from innovation to implementation

Hickey

2021

Digital Health

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<title>Human interaction with wearable computer systems: a look at glasses-mounted displays</title>

Cited by 4 publications

References 3 publications

The Use of Voice and Head-Tracking for Hands-Free Human-Computer Interaction

The Use of Voice and Head-Tracking for Hands-Free Human-Computer Interaction

Comparison of Hands-Free versus Conventional Wearable Computer Control for Maintenance Applications

The rise of wearables: from innovation to implementation

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