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Article type: Research Article
Authors: Houben, Mark M.J.a; * | Meskers, Arjan J.H.a | Bos, Jelte E.a; b | Groen, Eric L.a
Affiliations: [a] TNO, Soesterberg, The Netherlands | [b] Behavioural and Movement Sciences, Vrije Universiteit Amsterdam, The Netherlands
Correspondence: [*] Corresponding author: Mark Houben, PO Box 23, 3769 ZG Soesterberg, The Netherlands. Tel.: +31888665844; E-mail: [email protected].
Abstract: BACKGROUND:The vestibular Coriolis illusion is a disorienting sensation that results from a transient head rotation about one axis during sustained body rotation about another axis. Although often used in spatial disorientation training for pilots and laboratory studies on motion sickness, little is known about the minimum required rotation rate to produce the illusion. OBJECTIVE:This study determined the perception threshold associated with the Coriolis illusion. METHODS:Nineteen participants performed a standardized pitching head movement during continuous whole-body yaw rotation at rates varying between 5 to 50 deg/s. The participants reported their motion sensation in relation to three hypothesized perception thresholds: 1) a sense of undefined self-motion, 2) a sense of rotation, and 3) a sense of rotation and its direction (i.e., the factual Coriolis illusion). The corresponding thresholds were estimated from curves fitted by a generalized linear model. RESULTS:On average threshold 1 was significantly lower (8 deg/s) than thresholds 2 and 3. The latter thresholds did not differ from each other and their pooled value was 10 deg/s. CONCLUSIONS:The Coriolis illusion is perceived at yaw rates exceeding 10 deg/s using a pitching head movement with 40 deg amplitude and 55 deg/s peak velocity. Model analysis shows that this corresponds to an internal rotation vector of 6 deg/s. With this vector the Coriolis perception threshold can be predicted for any other head movement.
Keywords: Spatial disorientation, perception modeling, pilot training
DOI: 10.3233/VES-210073
Journal: Journal of Vestibular Research, vol. 32, no. 4, pp. 317-324, 2022
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