Abstract
Daan et al. (1984) have proposed that sleep and wakefulness are regulated, in part, by a “Process S” that increases during wakefulness and declines during sleep. Data derived from several studies were taken to determine the time course of Process S during both wake fulness and sleep. As required by the model, slow-wave-sleep (SWS; an index of Process S) was found to increase exponentially as a function of prior wake time (equation 1) and to decline exponentially as a function of time asleep (equation 2). The equations accounted for 91% and 96% of the variance, respectively. In addition, equation 1 accurately predicted the amount the amount of SWS in the first hour of nocturnal sleep. © 1986, Sage Publications. All rights reserved.
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CITATION STYLE
Knowles, J. B., Maclean, A. W., Salem, L., Vetere, C., & Coulter, M. (1986). Slow-Wave Sleep in Daytime and Nocturnal Sleep: An Estimate of the Time Course of “Process S.” Journal of Biological Rhythms, 1(4), 303–308. https://doi.org/10.1177/074873048600100404
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