Formal safety assessment of container liner supply chains

• Autorzy: Yang Z. , Bonsall S. , Fang Q. , Wang J.

Warianty tytułu

PL

Formalna ocena bezpieczeństwa kontenerowego liniowego systemu zaopatrzenia

• Konferencja: European Safety and Reliability Conference, ESREL 2005 (16 ; 27-30.06.2005 ; Gdynia-Sopot-Gdańsk)
• Języki publikacji: EN

Abstrakty

EN

This paper develops a conceptual safety assessment methodology for container liner supply chains based on a modified FSA framework that takes risks from vulnerability rather than hazards into account. Five interlocking steps are described to construct a safety model including novel risk analysis and decision-making approaches. The advantages of the vulnerability-based risk analysis approach to the hazard-based one are clarified and the aggregation of engineering-based and managerial risk analysis is also discussed. An anti-terrorism case study is finally carried out to validate the feasibility of the proposed methodology.

PL

Praca rozwija koncepcyjnie metodologię oceny bezpieczeństwa liniowego kontenerowego systemu dostawczego opartą na schemacie formalnej oceny bezpieczeństwa. Opisanych jest pięć kroków niezbędnych do skonstruowania modelu bezpieczeństwa rozważanego systemu, zawierającego znowelizowaną analizę ryzyka oraz pewne elementy systemu podejmowania decyzji. Pracę kończy ilustracja zastosowania proponowanej metody do oceny bezpieczeństwa w przypadku ataku terrorystycznego.

Słowa kluczowe

PL

system zaopatrzenia; kontenerowy system dostawczy; ocena bezpieczeństwa; analiza ryzyka

• Wydawca: Warsaw University of Technology, Faculty of Transport
• Czasopismo: Archives of Transport
• Rocznik: 2005
• Tom: Vol. 17, iss.3-4
• Strony: 255--274
• Opis fizyczny: Bibliogr. 17 poz., rys., tab.

Twórcy

autor

Yang Z.

• Liverpool John Moores University, Faculty of Technology and Environment, Liverpool, UK

autor

Bonsall S.

• Liverpool John Moores University, Faculty of Technology and Environment, Liverpool, UK

autor

Fang Q.

• Liverpool John Moores University, Faculty of Technology and Environment, Liverpool, UK

autor

Wang J.

• Liverpool John Moores University, Faculty of Technology and Environment, Liverpool, UK

• Liverpool John Moores University, Faculty of Technology and Environment, Byrom Street, Liverpool, L3 3AF, UK

Bibliografia

• 1. Bums H. T., Cordire P., Eriksson T.: Security Risk Assessment and Control. Leicester: Perpetuity Press Ltd., 2003.
• 2. Chapman P., Christopher M., Jüttner U., Peck H., Wilding R.: Identifying and managing supply-chain vulnerability. Logistics & Transport Focus, 4(4), 17, 2002.
• 3. Karwowski W., Mital A.: Potential applications of fuzzy sets in industrial safety engineering. Fuzzy Sets and Systems, 19, 105-120, 1986.
• 4. Kuo C.: Managing Ship Safety. LLP, London, 1998.
• 5. Lois P., Wang J., Wall A., Ruxton T.: Formal safety assessment of cruise ships. Tourism Management, 25, 93-109, 2004.
• 6. MSA. Formal safety assessment. MSC66/14. International Maritime Organisation (IMO) Maritime Safety Committee, London, 1993.
• 7. OECD. Security in maritime transport: risk factors and economic impact. Maritime Transport Committee of OECD Report. OECD, France, 2003.
• 8. PVA. A Guide to Improving the Safety of Passenger Vessel Operations by Addressing Risk. Arlington, 1997.
• 9. Sen P., Yang J. B.: A multiple criteria decision support environment for engineering design. Proceeding of the 9-th International Conference of Engineering Design, Hague, August 17-19, 1993.
• 10. Timmerman P.: Vulnerability, Resilience and the Collapse of Society. Institute of Environmental Studies, University of Toronto, Toronto, 1981.
• 11. Wang J., Foinikis P.: Formal safety assessment of containerships. Marine Policy, 25(2), 143-157, 2001.
• 12. Wang J., Pillay A., Wall A., Ruxton T.: The latest development in ship safety assessment. Proceeding of the 4-th International Conference on Reliability, Maintainability and Safety (ICRMS ’99), Shanghai, 1999.
• 13. Wang J., Yang J. B., Sen P.: Safety analysis and synthesis using fuzzy sets and evidential reasoning. Reliability Engineering & System Safety, 47, 103-118, 1995.
• 14. Wang J., Yang J. B., Sen P.: Multi-person and multi-attribute design evaluations using evidential reasoning based on subjective safety and cost analyses. Reliability Engineering & System Safety, 52, 113-128, 1996.
• 15. Weichselgartner J.: Disaster mitigation: the concept of vulnerability revisited. Disaster Prevention and Management, 10(2), 85-94, 2001.
• 16. Yang J. B., Deng M., Xu D. L.: Nonlinear regression to estimate both weights and utilities via evidential reasoning for MADM. Processing 5-th International Conference, Optimization: Techniques and Applications, December 15-17, Hong Kong, 2001.
• 17. Yang J. B., Xu D. L.: On the evidential reasoning algorithm for multiple attribute decision analysis under uncertainty. IEEE Transactions on Systems, Man and Cybernetics - Part A: Systems and Humans, 32(3), 289-304, 2002.