Evaluation of adaptation to visually induced motion sickness based on the maximum cross-correlation between pulse transmission time and heart rate.

Evaluation of adaptation to visually induced motion sickness based on the maximum cross-correlation between pulse transmission time and heart rate. Research Abstract Details 

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Evaluation of adaptation to visually induced motion sickness based on the maximum cross-correlation between pulse transmission time and heart rate. Abstract Text:

Norihiro Sugita,Makoto Yoshizawa,Makoto Abe,Akira Tanaka,Takashi Watanabe,Shigeru Chiba,Tomoyuki Yambe,Shin-Ichi Nitta,Norihiro Sugita,Makoto Yoshizawa,Makoto Abe,Akira Tanaka,Takashi Watanabe,Shigeru Chiba,Tomoyuki Yambe,Shin-ichi Nitta,Norihiro Sugita,Makoto Yoshizawa,Makoto Abe,Akira Tanaka,Takashi Watanabe,Shigeru Chiba,Tomoyuki Yambe,Shin-ichi Nitta,

ABSTRACT: BACKGROUND: Computer graphics and virtual reality techniques are useful to develop automatic and effective rehabilitation systems. However, a kind of virtual environment including unstable visual images presented to wide field screen or a head mounted display tends to induce motion sickness. The motion sickness induced in using a rehabilitation system not only inhibits effective training but also may harm patients' health. There are few studies that have objectively evaluated the effects of the repetitive exposures to these stimuli on humans. The purpose of this study is to investigate the adaptation to visually induced motion sickness by physiological data. METHODS: An experiment was carried out in which the same video image was presented to human subjects three times. We evaluated changes of the intensity of motion sickness they suffered from by a subjective score and the physiological index rhomax, which is defined as the maximum cross-correlation coefficient between heart rate and pulse wave transmission time and is considered to reflect the autonomic nervous activity. RESULTS: The results showed adaptation to visually-induced motion sickness by the repetitive presentation of the same image both in the subjective and the objective indices. However, there were some subjects whose intensity of sickness increased. Thus, it was possible to know the part in the video image which related to motion sickness by analyzing changes in rhomax with time. CONCLUSION: The physiological index, rhomax, will be a good index for assessing the adaptation process to visually induced motion sickness and may be useful in checking the safety of rehabilitation systems with new image technologies.

Evaluation of adaptation to visually induced motion sickness based on the maximum cross-correlation between pulse transmission time and heart rate. Publishing Authors By Initials

N Sugita,M Yoshizawa,M Abe,A Tanaka,T Watanabe,S Chiba,T Yambe,S Nitta,N Sugita,M Yoshizawa,M Abe,A Tanaka,T Watanabe,S Chiba,T Yambe,S Nitta,N Sugita,M Yoshizawa,M Abe,A Tanaka,T Watanabe,S Chiba,T Yambe,S Nitta,

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Evaluation of adaptation to visually induced motion sickness based on the maximum cross-correlation between pulse transmission time and heart rate. Journal Published:

PUBLICATION TYPE: Journal Article

Journal: Journal of neuroengineering and rehabilitation

VOLUME: 4

Page Numbers: 35

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ISSN: 1743-0003

DAY: 28

MONTH: 09

YEAR: 2007

Evaluation of adaptation to visually induced motion sickness based on the maximum cross-correlation between pulse transmission time and heart rate. Information

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LANGUAGE: eng

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Grant and Affiliation Information for Evaluation of adaptation to visually induced motion sickness based on the maximum cross-correlation between pulse transmission time and heart rate.

AFFILIATION: Graduate School of Engineering, Tohoku University, Aoba 6-6-05, Aramaki, Aoba-ku, Sendai, 980-8579, Japan. sugita@yoshizawa.ecei.tohoku.ac.jp.

Country: England

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MEDLINETA: J Neuroeng Rehabil

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