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http://dx.doi.org/10.5143/JESK.2011.30.1.29

Effort and Development Direction of Aviation Organization Against Human Errors  

Kim, Dae-Ho (Department of Research, The Republic of Korea Air Force Safety Management Wing)
Publication Information
Journal of the Ergonomics Society of Korea / v.30, no.1, 2011 , pp. 29-39 More about this Journal
Abstract
Safety management paradigm which against human errors in aviation industry is now changing from the follow-up measures after accident in the past to systematic approach that a forecast the hazards and improve the working system of the group to prevent accidents. As human factors are based on the man's specific psychological traits, it takes much time and efforts to prepare the preventive measures. That's why aviation industry is interested in the accident-prevent measurements against human errors. In this thesis, therefore, we are going to introduce the efforts that aviation organizations have tried and recommend management systems and discuss the suggestive facts. At first, we discussed introduction of HFACS which is the systematic accidents-classification system related to human errors in the aviation organization and countermeasure in the aspects of management, technology/engineering, education training. We described about FOQA, LOSA, CRM/TEM, aviation safety information DB in the aspect of management, and explained safety technologies that prevent human errors or avoid technologically when emergency occurs in the aspect of technology/engineering. In the aspect of education training, we explained the application plan about safety programs(LOFT/Simulator use, CRM/TEM application etc).
Keywords
Human Error; Aviation; HFACS; FOQA; LOSA; CRM/TEM;
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  • Reference
1 Wayne, R., Helping Hand, FSF(Flight Safety Foundation), pp17-21, 2008.
2 대한한공, Flight Safety Occurrence Review Using the Human Factors Causal Analysis Tool(HFACS)(2008-2009), SkySafety 21, Vol 105, pp31-41, 2010.
3 성기정, 항공기 안전성 향상 관련 기술동향, 공군 항공안전세미나, 2010.
4 ICAO, ICAO DOC 9803, Line Operation Safety Audit 2002.
5 ICAO, ICAO DOC 9859, Safety Management Manual(SMM) 2009.
6 Klinect, J., Murray, P., Merrit, A. and Helmreich, R., LOSA: Definition and Operation Characteristics, p.p1-2, The University of Texas Human Factors Research Project, TLC, Austin Texas 2003.
7 Maurino, D., LOSA; New Crew performance monitoring continues to evolve as database grows, ICAO Journal, Vol 57, 2002.
8 Maurino, D., Threat and Error Management, Canadian Aviation Safety Seminar, 2005.
9 Mustapha, M., Richard, D. G., John, D. J. and Christopher, B., Pilot interactions with alarm systems in the cockpit. Proceedings of the Human Factors and Ergonics Society 47th Annual Meeting, p199, 2003.
10 Reason, J., Human error. New York: Cambridge University Press 1990.
11 Roger R Green, et al., Human Factors for Pilot, British Library Cataloguing in Publication Data 1991.
12 Us Navy, Opportunity Analysis for Military Flight Operations Quality Assurance(MFOQA) 2003.
13 Self, B. P., van Erp, J. B. F., Eriksson, L. & Elliott, L. R., Human factors issues of tactile displays for military environments. In J. B. F. van Erp, & B. P. Self (Ed.), Tactile Displays for Orientation, Navigation and Communication in Air, Sea and Land Environments, TR-HFM-122 (pp.1.4-1.5). RTO Technical Report, NATO Research and Technology Organisation 2008.
14 Shappell, S. & Wiegmann, D., A human error approach to accident investigation: The taxonomy of unsafe operations. The International Journal of Aviation Psychology, 7, pp269-291, 1997a.   DOI
15 Shappell, S., Wiegmann, D., Fraser, J., Gregory, G., Kisey, P. & Squire, H., Beyond mishap rates: A human factors analysis of U.S. Navy/Marine Corps TACAIR and rotary wing mishaps using HFACS. Aviation, Spaceand Environmental Medicine, 70, 416-7, 1999.
16 Gabriel, R., Principles of haptic perception in virtual environments, Human haptic perception: basics and applications, 30: pp. 363-379, 2008.
17 CAP 737, Crew Resource Management(CRM) Training, CAA 2006.
18 Ercoline, W. & McKinley, A., Tactile Displays for Orientation, Navigation and Communication in Air, Sea and Land Environments, Research and Technology Organisation. Chapter 6, 2008.
19 FAA, FAA Order 8400.10, Air Transportation Operations Inspector's Handbook 2006.
20 Hollnagel, E., Barriers and Accident Prevention, ASHGATE 2004.