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Publication AbstractsEffects of fore-and aft, lateral and vertical whole-body vibration on a head-position taskGriffin MJ, Brett MWAviat Space Environ Med 1997; 68:1115-22 AbstractBackground: The performance of tasks in which the head must be positioned close to objects in a moving vehicle may be impeded by the presence of vibration. Hypotheses: It was hypothesized that the extent to which a head positioning task would be impeded by whole-body vibration would depend on the frequency, direction and waveform of the vibration and the posture of the body. Method: There were 12 subjects who participated in a laboratory experiment in which they judged the difficulty of looking through a pair of sights while exposed to low frequency vibration. We investigated four variables: vibration axis (fore-and-aft, lateral, vertical), vibration frequency (11 frequencies in the range 0.5 to 5.0 Hz), vibration waveform (sinusoidal vibration, one-third octave bands of random vibration), seating condition (wearing a 4-point harness, sitting without back support). Results: We found that all variables affected the perceived task difficulty. Frequencies of horizontal vibration in the range 1 to 4 Hz caused most difficulty. Task difficulty was greatest with random vibration, especially with low frequency vibration in the horizontal axes. The wearing of a 4-point harness greatly reduced the perceived task difficulty during exposure to low frequency fore-and-aft vibration but increased task difficulty with higher frequencies of lateral vibration. Conclusions: Increased motion predictability and the provision of suitable support to the upper body (e.g., a harness, back support, front support) can reduce the difficulty of head positioning tasks during exposure to some types of oscillatory motion.
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