The authors studied relations between postural sway, optical flow, and constraints on posture imposed by a suprapostural looking task. Optical flow resulted from unperturbed sway and was not imposed by the experimenters. Participants fixated a distant target or a nearby target. In the key condition, participants looked past (i.e., ignored) a nearby target to fixate the distant target. The authors recorded the variability of head position as a measure of the amplitude of postural sway. In 5 of 7 experiments, sway variability was influenced by the location of the fixated target not by the distance of the nearest visible surface (the unfixated nearby target). Postural sway was modulated to facilitate the performance of suprapostural tasks and was not driven by optical flow in an autonomous (task-independent) manner. The authors concluded that posture can be understood only in the context of explicit manipulations of suprapostural tasks.Many studies have demonstrated that optical flow can influence dynamic spatial orientation (e.g., Andersen &
We investigated whether postural instability can predict motion sickness and studied relations among instability, motion sickness, and vection. Nine men and 4 women (mean age = 19.85 years) were exposed, while standing, to an optical simulation of body sway. Head motion was recorded using a magnetic tracking system. Postural instabilities were observed prior to the onset of motion sickness. Vection was reported by most participants, including all who became ill. A discriminant analysis revealed that parameters of postural motion accurately predicted motion sickness. The results confirm that postural instability precedes motion sickness and suggest that measures of postural motion may serve as reliable predictors of motion sickness. Potential applications of this research include the development of on-line diagnostic tools that will allow for the prevention of motion sickness in operational and training settings.
We evaluated the prediction that postural instability would precede the subjective symptoms of motion sickness in a fixed-base flight simulator. Participants sat in a cockpit in a video projection dome and were exposed to optical flow that oscillated in the roll axis with exposure durations typical of flight simulation. The frequencies of oscillation were those that characterize spontaneous postural sway during stance. Head motion was measured prior to and during exposure to imposed optical flow. Of 14 participants, 6 were classified as motion sick, either during or after exposure to the optical oscillation. Prior to the onset of subjective symptoms, head motion among participants who later became sick was significantly greater than among participants who did not become motion sick. We argue that the results support the postural instability theory of motion sickness. Actual or potential applications include the prevention or mitigation of motion sickness in virtual environments.
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