Qualitative and Quantitative Analysis of Safeguards Logic Trees
KeywordsDetection Probability Fuel Cycle Nuclear Material Logic Tree Base Event
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- 1.G.G.M. Cojazzi, G. Renda, Applying systems analysis and risk informed methods to assess nuclear safeguards and non proliferation regimes, Proc. ESARDA Symposium 2003, Stockholm, 13-15 May 2003.Google Scholar
- 2.L. Ong, V. Bragin, J. Hill, M. Cullingford, A. Taig, A. Garlick; Feasibility of Applying Probabilistic Safety Assessment Methodology for IAEA Safeguards Purposes, IAEA, Dep. Of Safeguards, STR-249, IAEA, May 1989.Google Scholar
- 3.J. Hill, Logic Trees and Integrated Safeguards, ASAP-9802, ASNO, August 1998.Google Scholar
- 4.IAEA, Safeguards Glossary, 2001 Edition, Int. Nuclear Verification Series, No. 3.Google Scholar
- 5.S. Contini, S. Scheer; M. Wilikens, G. De Cola; G. Cojazzi. ASTRA, an Integrated Tool Set for Complex Systems Dependability Studies, Advances in Computing Science, R. Berghammer, Y. Lakhnech (Eds.), (1999).Google Scholar
- 6.ASTRA-FTA, Fault Tree Analysis Module, USER MANUAL, EC-JRC, S.P.I.98.64.Google Scholar
- 7.G. Renda, Applying System Analysis and Risk Informed Approach to Support the IAEA Safeguards and non Proliferation Regimes, Graduation thesis for the degree in Nuclear Engineering, Politecnico di Milano, AA 2001-2002.Google Scholar
- 8.Nuclear Energy Research Advisory Committee (NERAC), Annex: Attributes of Proliferation Resistance for Civilian Nuclear Power Systems, October 2000.Google Scholar
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