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Roles of Safety Management System (SMS) in Aircraft Development
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 Title & Authors
Roles of Safety Management System (SMS) in Aircraft Development
Lee, Won Kwan; Kim, Seung Jo;
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 Abstract
Safety is the first priority in civil aviation, and so the International Civil Aviation Organization (ICAO) has introduced and mandated the use of Safety Management Systems (SMS) by airlines, airports, air traffic services, aircraft maintenance organizations, and training organizations. The aircraft manufacturing industry is the last for which ICAO has mandated the implementation of SMS. Since SMS is a somewhat newer approach for most manufacturers in the aviation industry, they hardly believe in the value of implementing SMS. The management of safety risk characteristics that occur during early aircraft development stages and the systematic linkage that the safety risk has to do with an aircraft in service could have a significant influence on the safe operation and life cycle of the aircraft. This paper conducts a case analysis of the McDonnell Douglas MD-11 accident/incident to identify the root causes and safety risk levels, and also verified why aircraft manufacturing industry should begin to adopt SMS in order to prevent aircraft accident.
 Keywords
Safety Management System (SMS);Aircraft Manufacturing Industry;Design and Certification Processes;Human Factor Classification Analysis System (HFACS);Accident Prevention;
 Language
English
 Cited by
 References
1.
United States General Accounting Office, Aviation Safety: Improved Data Quality and Analysis Capabilities Are Needed as FAA Plans a Risk-Based Approach to Safety Oversight, GAO-10-414. Washington, D.C, May 2010.

2.
Reason, J., Managing the Risks of Organizational Accidents, Ashgate Publishing Company, Aldershot, UK, 1997.

3.
Stolzer, A., QMS (AS9100) and SMS: GAP Comparison, Embry-Riddle Aeronautical University, 2011

4.
International Civil Aviation Organization, Annex 19 Safety Management, First Edition, July 2013.

5.
International Civil Aviation Organization, Safety Management Manual, SMM Doc. 9859, Third Edition, 2013.

6.
National Transportation Safety Board: Aircraft Incident Report, Auxiliary Power Unit Battery Fire, Japan Airlines Boeing 787-8, JA829J, Boston, Massachusetts (January 7, 2013), NTSB/AIR-14/01. Washington, D.C, 2014.

7.
Kinnersley, S. and Roelen, A., "The contribution of design to accidents", Safety Science, Vol. 45, 2007, pp. 31-36. crossref(new window)

8.
Younossi, A., "FAA - Safety Management Systems", Proceedings of the 2010 ICAO High level Safety Conference, Mar 29, 2010.

9.
Federal Aviation Administration, Safety Management System (SMS) Aviation Rulemaking Committee (ARC) SMS ARC Recommendations Final Report, March 31, 2010.

10.
United States General Accounting Office, Aviation Safety: Additional Oversight Planning by FAA Could Enhance Safety Risk Management, GAO-14-516, Washington, D.C, Jun 2014.

11.
Safety Management International Collaboration Group (SM ICG), The Senior Manager's Role in Safety Management System, May 2012.

12.
Federal Aviation Administration, Advisory Circular Safety Management Systems Aviation Service Providers, AC No. 120-92B, January 8, 2015.

13.
Nation Transportation Safety Board, Investigations [website]. Available at http://www.ntsb.gov/investigations/Pages/default.aspx.

14.
Nation Transportation Safety Board, Aircraft Accident Report: Inadvertent In-Flight Slat Deployment China Eastern Airlines Flight 583, Washington, D.C, Oct 27, 1993.

15.
Nation Transportation Safety Board, "Aircraft Accident Report: Crash during Landing Federal Express, INC. McDonnell Douglas MD-11, Newark International Airport, Newark, New Jersery (July 31, 1997)", NTSB/AIR-00/02. Washington, DC, 2000.

16.
Shappell, S. and & Wiegmann, D., "Applying Reason: The Human Factors Analysis and Classification System (HFACS)", Human Factors and Aerospace Safety, Vol. 1, 2007, pp. 59-86.

17.
Wiegmann, D. and Shappell, S.A., A Human Error Approach to Aviation Accident Analysis: The Human Factors Analysis and Classification System, Ashgate Publishing Company, Burlington, VT. 2003.

18.
Australian Transport Safety Bureau, Aviation Research and Analysis Report, Evaluation of the Human Factors Analysis and Classification System as a predictive model, AR-2008-036, Dec 2010.

19.
Federal Aviation Administration, Transport Airplane Risk Assessment Methodology (TARAM) Handbook, PSANM- 25-05, Draft Revision 1.

20.
Boeing Commercial Airplanes, Statistical Summary of Commercial Jet Airplane Accidents Worldwide Operations 1959 - 2013, Seattle, Washington, Aug 2014.

21.
Federal Aviation Administration, Manufacturers Safety Management System Pilot Project Report Design and Manufacturing Organizations, 2012.

22.
Federal Aviation Administration, A Report from the Part 21/Safety Management System (SMS) Aviation Rulemaking Committee to the Federal Aviation Administration, Oct 5, 2014.