CIRCADIAN PATTERN OF SIMULATED FLIGHT PERFORMANCE OF PILOTS IS DERIVED FROM ULTRADIAN COMPONENTS1

Studies suggest some physiologic, cognitive, and behavioral 24h rhythms are generated by cyclic components that are shorter in period than circadian. The aim of this study was [1] to examine the hypothesis that 24h human performance rhythms arise from the integration of high-frequency endogenous com...

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Bibliographic Details
Published in:Chronobiology international 2001, Vol.18 (6), p.987-1003
Main Authors: Shub, Y., Shub, Yossy, Lewy, Hadas, Ashkenazi, Israel E.
Format: Article
Language:English
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Summary:Studies suggest some physiologic, cognitive, and behavioral 24h rhythms are generated by cyclic components that are shorter in period than circadian. The aim of this study was [1] to examine the hypothesis that 24h human performance rhythms arise from the integration of high-frequency endogenous components and [2] to quantify the contribution of each higher frequency component to the phenotype of the rhythm. We monitored the performance of 9 experienced pilots by employing an array of cognitive-based tests conducted in a flight simulator so that, over the 6-day experiment, data were obtained for each 2h interval of the 24h. The activity-rest schedule of the subjects, no matter the exact clock time schedule of sleep and activity, always consisted of 14h activity (when they carried out regular professional duties) and 10h rest, with at least 8h of sleep. The simulated combat scenarios consisted of simple and complex tasks associated with target interception, aircraft maneuvering, and target shooting and downing. The results yielded two indices: the number of prominent periodicities in the time series and the relative magnitude of the amplitude of each relative to the construction of the composite 24h waveform. Three cyclic components (8h, 12h, and 24h) composed the observed 24h performance pattern. The dominant period and acrophase (peak time) of the compound output rhythm were determined by the interplay between the amplitudes of the various individual ultradian components. Task complexity (workload) increases the expression of the ultradian entities in the 24h pattern. We constructed a model composed of the multiple ultradian components; the composite output defined a "time span" (of 2h-4h duration) as opposed to an exact "time point" of high and low performance, endowing elevated functional capability. (Chronobiology International, 18(6), 987-1003, 2001)
ISSN:0742-0528
1525-6073
DOI:10.1081/CBI-100107973