References
- Hours of Work: Temporal Factors in Work-Scheduling, S. Folkard, T. H. Monk. John Wiley and Sons, Chichester 1985
- Knauth P., Rohmert W., Rutenfranz J. Systematic selection of shift plans for continuous production with the aid of work-physiology criteria. Applied Ergonomics 1979; 10: 9–15
- Moog R. Optimization of shift work: physiological contributions. Ergonomics 1987; 30: 1249–1259
- Mosso U. Recherches sur l'inversion des oscillations diurnes de la temperature chez l'homme normal. Arch Italiennes de Biol 1987; 8: 177–185
- Minors D. S., Waterhouse J. M. Masking in humans: the problem and some attempts to solve it. Chronobiol Int 1988; 6: 29–53
- Mills J. N., Minors D. S., Waterhouse J. M. Adaptation to abrupt time shifts of the oscillator(s) controlling human circadian rhythms. J Physiol (London) 1978; 285: 455–470
- Wever R. A. The Circadian System of Man: Results of Experiments under Temporal Isolation. Springer, New York 1979
- Minors D. S., Waterhouse J. M. Endogenous and exogenous components of circadian rhythms when living on a 21 h day. Int J Chronobiol 1982; 8: 31–48
- van Loon J. H. Diurnal body temperature curves in shift workers. Ergonomics 1963; 6: 267–213
- Folkard S., Minors D. S., Waterhouse J. M. Chronobiology and shiftwork: current issues and trends. Chronobiologia 1985; 12: 31–54
- Folkard S., Akerstedt T. Towards a model for the prediction of alertness and/or fatigue on different sleep/wake schedules. Contemporary Advances in Shiftwork Research: Theoretical and Practical Aspects in the Late Eighties, A. Oginski, J. Pokorski, J. Rutenfranz. Medical Academy, Krakow 1987; 231–240
- Aschoff J., Wever R. A. Uber Reproduzierbarkeit circadianer Rhythmen beim Menschen. Klin Wschr 1980; 58: 323–335
- Monk T. H., Fort A. “Cosina”: A cosine curve fitting program suitable for small computers. Int J Chronobiol 1983; 8: 193–224
- Wever R. A. Internal interactions within the human circadian system: the masking effect. Experientia 1985; 41: 332–342
- Colquhoun W. P., Blake M. J. F., Edwards R. S. Experimental studies of shiftwork–II. Stabilized 8-hour shift systems. Ergonomics 1968; 11: 527–546
- Colquhoun W. P., Blake M. J. F., Edwards R. S. Experimental studies of shiftwork–III. Stabilized 12-hour shift systems. Ergonomics 1969; 12: 865–882
- Klein K. E., Wegmann H. M., Hunt J. B. Desynchronization of body temperature and performance circadian rhythms as a result of outgoing and homegoing transmeridian flights. Aerospace Med 1972; 43: 119–132
- Klein K. E., Wegmann H. M., Athanassenas G., Hohlweck H., Kuklinski P. Air operations and circadian performance rhythms. Aviation Space Environ Med 1976; 47: 221–230
- Minors D. S., Waterhouse J. M. Effects upon circadian rhythmicity of an alteration to the sleep-wake cycle: Problems of assessment resulting from measurement in the presence of sleep and analysis in terms of a single shifted component. J Biol Rhythms 1988; 3: 23–40
- Vidacek S., Kaliterna Lj., Radosevic-Vidacek B., Folkard S. Personality differences in the phase of circadian rhythms: a comparison of morningness and extraversion. Ergonomics 1988; 31: 873–888
- Kogi K. Introduction to the problems of shiftwork. Hours of Work: Temporal Factors in Work-Scheduling, S. Folkard, T. H. Monk. John Wiley and Sons, Chichester 1985; 165–184
- Zutley J., Wever R. A., Aschoff J. The dependence of onset and duration of sleep on the circadian rhythm of rectal temperature. Pflugers Arch 1981; 391: 314–318
- Folkard S. Circadian rhythms and shiftwork: Adjustment or masking?. Trends in Chronobiol, Th. J. M. W. Hekkens, G. A. Kerkhof, W. J. Rietveld. Pergamon Press, Oxford 1988