- 1. Introduction
- 2. Automated Fatigue Audit Systems
- 3. Manual Fatigue Audit System
- 4. Conclusion
Åkerstedt, T., Folkard, S., & Portin, C. (2004). Predictions from the three-process model of alertness. Aviation, Space and Environmental Medicine, 75 (3, Supplement).
Civil Aviation Authority (October 2005). Aircrew Fatigue: A Review of Research Undertaken on Behalf of the UK Civil Aviation Authority. Paper 2005/04. Norwich: The Stationery Office.
Fatigue Risk (2007). FAST™. Retrieved June 14, 2007, from http://fatiguerisk.com/?page_id=5
Fatigue Risk (2007). xsRiskPro. Retrieved June 14, 2007, from http://fatiguerisk.com/?page_id=6
Dawson, D., & Fletcher, A. (2001). A quantitative model of work-related fatigue: Background and definition. Ergonomics, 44 (2).
Dawson, D., & Reid, K. (1997). Fatigue, alcohol and performance impairment. Nature, 388 (6639).
Fletcher, A., & Dawson, D. (1997). A predictive model of work-related fatigue based on hours of work. Journal of Occupational Health and Safety Australia and New Zealand, 13 (5).
Fletcher, A., & Dawson, D. (2001). A quantitative model of work-related fatigue: Empirical evaluations. Ergonomics, 44 (5).
Fletcher, A., & Dawson, D. (1998). A work-related fatigue model based on hours-of-work. In: L. Hartley (ed.) Managing Fatigue in Transportation, Oxford: Pergamon Press.
Fletcher, A., & Dawson, D. (2001). Field-based validations of a work-related fatigue model based on hours of work. Transportation Research Part F, 4 (1).
Fletcher, A., Roach, G.D., Lamond, N., & Dawson, D. (2000). Laboratory based validations of a work-related fatigue model based on hours of work. In: S. Hornberger, P. Knauth, G. Costa and S. Folkard (eds.) Shiftwork in the 21st Century: Challenges for Research and Practice. Frankfurt: Peter Lang.
Folkard, S. & Åkerstedt, T. (1991). A three process model of the regulation of alertness and sleepiness. In R. Ogilvie, R.T. Wilkinson and R.J. Broughton (eds.) Sleep, Arousal and Performance: Problems and Promises. Boston: Birkhäuser.
Jewett, M.E. (1997). Models of circadian and homeostatic regulation of human performance and alertness. Cambridge: Harvard University.
Jewett, M.E., & Kronauer, R.E. (1999). Interactive mathematical models of subjective alertness and cognitive throughput in humans. Journal of Biological Rhythms, 14.
Hursh, S.R., Redmond, D.P., Johnson, M.L., Thorne, D.R., Belenky, G., Balkin, T.J., Storm, W.F., Miller, J.C., & Eddy, D.R. (2004). Fatigue models for applied research in warfighting. Aviation, Space, and Environmental Medicine, 75 (3, Supplement).
Kronauer, R.E., Forger, D., & Jewett, M.E. (1999). Quantifying human circadian pacemaker response to brief, extended, and repeated light episodes over the photopic range. Journal of Biological Rhythms, 14.
Mallis, M.M., Mejdal, S., Nguyen, T.T., & Dinges, D.F. (2004). Summary of the key features of seven biomathematical models of human fatigue and performance. Aviation, Space & Environmental Medicine, 75 (3, Supplement).
Moore-Ede, M., Heitmann, A., Guttkuhn, R., Trutschel, U., Aguirre, A., & Croke, D. (2004). Circadian alertness simulator for fatigue risk assessment in transportation: application to reduce frequency and severity of truck accidents. Aviation, Space & Environmental Medicine, 75 (3, Supplement).
Reeves, M. (2007). Software Review: SAFTE. Ergonomics in Design, 15 (2).
Williamson, A.M., & Feyer, A.M. (2000). Moderate sleep deprivation produces impairments in cognitive and motor performance equivalent to legally prescribed levels of alcohol intoxication. Occupational and Environmental Medicine, 57 (10).
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