The disaster of the Sewol-Ho, which took place on April 16, 2014, was one of the worst maritime disasters in South Korea in decades, and rescuing only 172 of a total 476 people triggered thorough accident investigations. As the results of the investigations performed by the Korea Maritime Safety Tribunal and the Board of Audit and Inspection of Korea, 399 people were blamed for the accident and arrested, 154 of them were put in jail, many safety policies and manuals were found inadequate, new safeguards against the kinds of accidents were implemented, and Korean high and low governments' structures which were related to the accident were reorganized: disbanding the 61-year-old Republic of Korea Coast Guard and establishing a new Ministry responsible for Korean public safety. The accident investigation reports, however, were limited in revealing the most important systemic causal mechanisms leading to a more complete understanding of the reason why the accident occurred, and therefore, appear to be inadequate in designing and obtaining sociotechnical system level safety because they did not apply system engineering tools in the investigations. The Systems-Theoretic Accident Model and Processes (STAMP), created by Dr. Nancy Leveson, is an accident model based on systems theory. It has been applied to improve system safety in a number of complex sociotechnical systems. STAMP has the capability to help identify a broader set of systemic causal factors and develop and improve the safety control structure for the entire maritime transportation safety structure. This thesis applies the Causal Analysis based on Systems Theory (CAST) accident analysis tool created by Dr. Leveson to the accident and provides the application and findings of CAST. The CAST analysis demonstrated that a complete set of systemic causal factors was identified by the systems theory approach, which was much broader than those of the Korea Maritime Safety Tribunal and the Board of Audit and Inspection of Korea. The powerful and effective tool to reveal the systemic causal mechanism led to the identification of the systemic causal factors and system improvements of the safety control system. Thesis Supervisor: Nancy G. Leveson Title: Professor of Aeronautics and Astronautics and Engineering Systems Yisug Kwon MIT SDM Thesis 2
[1]
Jens Rasmussen,et al.
Mental models and the control of action in complex environments
,
1987,
Informatics and Psychology Workshop.
[2]
Nancy Leveson.
The drawbacks in using the term 'system of systems'.
,
2013,
Biomedical instrumentation & technology.
[3]
Nancy G. Leveson,et al.
A systems approach to risk management through leading safety indicators
,
2015,
Reliab. Eng. Syst. Saf..
[4]
Sidney Dekker,et al.
Just Culture: Balancing Safety and Accountability
,
2012
.
[5]
Nancy G. Leveson,et al.
Engineering a Safer World: Systems Thinking Applied to Safety
,
2012
.
[6]
I. Svedung,et al.
Proactive Risk Management in a Dynamic Society
,
2000
.
[7]
Jens Rasmussen,et al.
Risk management in a dynamic society: a modelling problem
,
1997
.