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Article type: Research Article
Authors: Holly, Jan E.a; * | Masood, M. Arjumanda; b | Bhandari, Chiran S.a
Affiliations: [a] Department of Mathematics and Statistics, Colby College, Waterville, ME, USA | [b] Applied Mathematics, Harvard University, Cambridge, MA, USA
Correspondence: [*] Corresponding author: Jan E. Holly, Department of Mathematics and Statistics, Colby College, 5845 Mayflower Hill, Waterville, ME 04901, USA. Tel.: +1 207 859 5845; Fax: +1 207 859 5846; E-mail: Jan.Holly@colby.edu.
Abstract: Head movements during sustained rotation can cause angular cross-coupling which leads to tumbling illusions. Even though angular vectors predict equal magnitude illusions for head movements in opposite directions, the magnitudes of the illusions are often surprisingly asymmetric, such as during leftward versus rightward yaw while horizontal in a centrifuge. This paper presents a comprehensive investigation of the angular-linear stimulus combinations from eight different published papers in which asymmetries were found. Interactions between all angular and linear vectors, including gravity, are taken into account to model the three-dimensional consequences of the stimuli. Three main results followed. First, for every pair of head yaw movements, an asymmetry was found in the stimulus itself when considered in a fully three-dimensional manner, and the direction of the asymmetry matched the subjectively reported magnitude asymmetry. Second, for pitch and roll head movements for which motion sickness was measured, the stimulus was found symmetric in every case except one, and motion sickness generally aligned with other factors such as the existence of a head rest. Third, three-dimensional modeling predicted subjective inconsistency in the direction of perceived rotation when linear and angular components were oppositely-directed, and predicted surplus illusory rotation in the direction of head movement.
Keywords: Self-motion perception, modeling, centrifugation, coriolis cross-coupling, artificial gravity
DOI: 10.3233/VES-160585
Journal: Journal of Vestibular Research, vol. 26, no. 4, pp. 343-358, 2016
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