Vibrotactile perception assessment for a haptic interface on an antigravity suit

Haptic technology is used in various fields to transmit information to the user with or without visual and auditory cues. This study aimed to provide preliminary data for use in developing a haptic interface for an antigravity (anti-G) suit. With the structural characteristics of the anti-G suit in...

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Veröffentlicht in:Applied ergonomics 2017-01, Vol.58, p.198-207
Hauptverfasser: Ko, Sang Min, Lee, Kwangil, Kim, Daeho, Ji, Yong Gu
Format: Artikel
Sprache:eng
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Zusammenfassung:Haptic technology is used in various fields to transmit information to the user with or without visual and auditory cues. This study aimed to provide preliminary data for use in developing a haptic interface for an antigravity (anti-G) suit. With the structural characteristics of the anti-G suit in mind, we determined five areas on the body (lower back, outer thighs, inner thighs, outer calves, and inner calves) on which to install ten bar-type eccentric rotating mass (ERM) motors as vibration actuators. To determine the design factors of the haptic anti-G suit, we conducted three experiments to find the absolute threshold, moderate intensity, and subjective assessments of vibrotactile stimuli. Twenty-six fighter pilots participated in the experiments, which were conducted in a fixed-based flight simulator. From the results of our study, we recommend 1) absolute thresholds of ∼11.98–15.84 Hz and 102.01–104.06 dB, 2) moderate intensities of 74.36 Hz and 126.98 dB for the lower back and 58.65 Hz and 122.37 dB for either side of the thighs and calves, and 3) subjective assessments of vibrotactile stimuli (displeasure, easy to perceive, and level of comfort). The results of this study will be useful for the design of a haptic anti-G suit. •We determined five installation areas on the body, and determined the design factors of the haptic anti-G suit.•We investigated the absolute threshold and perception of the vibrotactile stimuli with twenty-six fighter pilots.•The present study provided preliminary data for use in developing a haptic interface for an anti-G suit.
ISSN:0003-6870
1872-9126
DOI:10.1016/j.apergo.2016.06.013