A linear physiological visual-vestibular interaction model for the prediction of motion sickness incidence
Approved for public release, distribution unlimited. === This thesis proposes a linear model based on human physiology for the explanation of the Motion Sickness Incidence (MSI) data found in previously reported experiments. The major human sensory systems taken into account are vestibular, visual,...
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Monterey, California. Naval Postgraduate School
2012
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| Online Access: | http://hdl.handle.net/10945/1382 |
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ndltd-nps.edu-oai-calhoun.nps.edu-10945-13822017-05-24T16:07:02Z A linear physiological visual-vestibular interaction model for the prediction of motion sickness incidence Matsangas, Panagiotis Miller, Nita Lewis McCauley, Michael E. Washburn, Alan Naval Postgraduate School Operations Research Human physiology Motion sickness Approved for public release, distribution unlimited. This thesis proposes a linear model based on human physiology for the explanation of the Motion Sickness Incidence (MSI) data found in previously reported experiments. The major human sensory systems taken into account are vestibular, visual, and the interaction between these two. The model is validated against the previous descriptive model and the corresponding experimental data. The proposed model predicts MSI with adequate precision (less than Å 5%) in the frequency range between 0.07 Hz and 0.25 Hz. The difference between the proposed model and the previous descriptive model is increased at the outer frequency regions of the data. 2012-03-14T17:31:35Z 2012-03-14T17:31:35Z 2004-09 Thesis http://hdl.handle.net/10945/1382 This publication is a work of the U.S. Government as defined in Title 17, United States Code, Section 101. Copyright protection is not available for this work in the United States. xx, 164 p. : ill. (some col.) ; application/pdf Monterey, California. Naval Postgraduate School |
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Others
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Human physiology Motion sickness |
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Human physiology Motion sickness Matsangas, Panagiotis A linear physiological visual-vestibular interaction model for the prediction of motion sickness incidence |
| description |
Approved for public release, distribution unlimited. === This thesis proposes a linear model based on human physiology for the explanation of the Motion Sickness Incidence (MSI) data found in previously reported experiments. The major human sensory systems taken into account are vestibular, visual, and the interaction between these two. The model is validated against the previous descriptive model and the corresponding experimental data. The proposed model predicts MSI with adequate precision (less than Å 5%) in the frequency range between 0.07 Hz and 0.25 Hz. The difference between the proposed model and the previous descriptive model is increased at the outer frequency regions of the data. |
| author2 |
Miller, Nita Lewis |
| author_facet |
Miller, Nita Lewis Matsangas, Panagiotis |
| author |
Matsangas, Panagiotis |
| author_sort |
Matsangas, Panagiotis |
| title |
A linear physiological visual-vestibular interaction model for the prediction of motion sickness incidence |
| title_short |
A linear physiological visual-vestibular interaction model for the prediction of motion sickness incidence |
| title_full |
A linear physiological visual-vestibular interaction model for the prediction of motion sickness incidence |
| title_fullStr |
A linear physiological visual-vestibular interaction model for the prediction of motion sickness incidence |
| title_full_unstemmed |
A linear physiological visual-vestibular interaction model for the prediction of motion sickness incidence |
| title_sort |
linear physiological visual-vestibular interaction model for the prediction of motion sickness incidence |
| publisher |
Monterey, California. Naval Postgraduate School |
| publishDate |
2012 |
| url |
http://hdl.handle.net/10945/1382 |
| work_keys_str_mv |
AT matsangaspanagiotis alinearphysiologicalvisualvestibularinteractionmodelforthepredictionofmotionsicknessincidence AT matsangaspanagiotis linearphysiologicalvisualvestibularinteractionmodelforthepredictionofmotionsicknessincidence |
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1718452586098458624 |