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Article type: Research Article
Authors: Holly, Jan E.
Affiliations: Department of Mathematics, Colby College, Mayflower Hill Drive, Waterville, ME 04901, USA. Tel.: +1 207 872 3202; Fax: +1 207 872 3801; E-mail: [email protected]
Abstract: The vestibular coriolis (or "cross-coupling") effect is traditionally explained by cross-coupled angular vectors, which, however, do not explain the differences in perceptual disturbance under different acceleration conditions. For example, during head roll tilt in a rotating chair, the magnitude of perceptual disturbance is affected by a number of factors, including acceleration or deceleration of the chair rotation or a zero-g environment. Therefore, it has been suggested that linear-angular interactions play a role. The present research investigated whether these perceptual differences and others involving linear coriolis accelerations could be explained under one common framework: the laws of motion in three dimensions, which include all linear-angular interactions among all six components of motion (three angular and three linear). The results show that the three-dimensional laws of motion predict the differences in perceptual disturbance. No special properties of the vestibular system or nervous system are required. In addition, simulations were performed with angular, linear, and tilt time constants inserted into the model, giving the same predictions. Three-dimensional graphics were used to highlight the manner in which linear-angular interaction causes perceptual disturbance, and a crucial component is the Stretch Factor, which measures the "unexpected" linear component.
Keywords: perception, motion sickness, zero-g, cross-coupling, self-motion
DOI: 10.3233/VES-2004-14603
Journal: Journal of Vestibular Research, vol. 14, no. 6, pp. 443-460, 2004
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