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Evaluation strategies for nuclear and radiological emergencyand post-accident management

Published online by Cambridge University Press:  16 September 2010

F. Schultmann
Affiliation:
Karlsruhe Institute of Technology (KIT), Institute for Industrial, Karlsruhe, Germany
W. Raskob
Affiliation:
Karlsruhe Institute of Technology (KIT), Institut für Kern- und Energietechnik, Eggenstein-Leopoldshafen, Germany
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Abstract

In nuclear and radiological emergency and post-accident management decisions oncountermeasures and remediation strategies have to be made. Whereas in the early phasedecisions on emergency actions must be made in a very short time, according to emergencyplans and dose thresholds, in the recovery phase complexity is higher. But there is alsomore time for evaluating alternative countermeasures and remediation strategies withrespect to several goals. In this paper evaluation strategies supporting the decisionmakers throughout all phases are presented. The applied decision support techniques rangefrom graphical presentations of decision relevant information about the alternatives foraction to multi-criteria decision making (MCDM) methods. In particular methods to copewith several types of uncertainties inherent in the different phases are presented. By theintegration of these techniques, the decision support system RODOS is able to providesupport for more conscious, transparent and coherent decision making.

Type
Article
Copyright
© EDP Sciences, 2010

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References

Barker, K., Haimes, Y.Y. (2009) Assessing uncertainty in extreme events: Applications to risk-based decision making in interdependent infrastructure sectors. Reliab. Eng. Syst. Saf. 94, 819-829.CrossRefGoogle Scholar
Belton V., Stewart T. (2002) Multiple Criteria Decision Analysis. An Integrated Approach. Kluwer Academic Publishers., Boston.
Benjaafar, S., Morin, T.L., Talavage, J.J. (1995) The strategic value of flexibility in sequential decision making, Eur. J. Oper. Res. 82, 438-457.CrossRefGoogle Scholar
Bertsch V. (2008) Uncertainty handling in Multi Attribute Decision Support for Industrial Risk Management. Dissertation, Universität Karlsruhe (TH), Karlsruhe University Press, available online at: http://digbib.ubka.uni-karlsruhe.de/volltexte/1000007378.
Bertsch, V., Geldermann, J. (2008) Preference elicitation and sensitivity analysis in multicriteria group decision support for industrial risk and emergency management, IJEM 5, 7-24.CrossRefGoogle Scholar
Bertsch, V., Geldermann, J., Rentz, O., Raskob, W. (2006) Multi-Criteria Decision Support and Stakeholder Involvement in Emergency Management, IJEM 3, 114-130.CrossRefGoogle Scholar
Brown J., Mortimer K., Andersson K., Duranova T., Mrskova A., Hänninen R., Ikäheimonen T., Kirchner G., Bertsch V., Gallay N., Hammond D., Kwakman P. (2007) Generic Handbook for Assisting in the Management of Contaminated Inhabited Areas in Europe Following a Radiological Emergency. Report within the EURANOS project. European Commission (EC).
Chermack, T.J. (2004) Improving decision-making with scenario planning, Futures 36, 295-309.CrossRefGoogle Scholar
Clemen R., Reilly T. (1999) Making Hard Decisions with DecisionTools. Pacific Grove, CA, Duxbury.
Comes T., Hiete M., Wijngaards N., Kempen M. (2009) Integrating Scenario-Based Reasoning into Multi-Criteria Decision Analysis. In: Proceedings of the 6th International Conference on Information Systems for Crisis Response and Management (ISCRAM 2009), May 10-13, 2009, Gothenburg, Sweden.
Ehrhardt, J., Weis, A. (2000) RODOS: Decision Support System for Off-site Nuclear Emergency Management in Europe. European Commission, Brussels, Report EUR 19144.Google Scholar
French, S. (1996) Multi-attribute decision support in the event of a nuclear accident, J. Multi-Criteria Decis. Anal. 5, 39-57.3.0.CO;2-Q>CrossRefGoogle Scholar
French, S. (2003) Modelling, making inferences and making decisions: The roles of sensitivity analysis, TOP 11, 229-251.CrossRefGoogle Scholar
French, S., Geldermann, J. (2005) The varied contexts of environmental decision problems and their implications for decision support, Environmental Science & Policy 8, 378-391.CrossRefGoogle Scholar
French S., Niculae C. (2005) Believe in the Model: Mishandle the Emergency. JHSEM 2, Available at: http://www.bepress.com/jhsem/vol2/iss1/2, accessed November 13, 2009.
French S., Ríos-Insua D. (2000) Statistical Decision Theory. London: Edward Arnold.
Geldermann J., Treitz M., Bertsch V., Rentz O. (2005) Moderated Decision Support and Countermeasure Planning for off-site Emergency Management. In: Energy and Environment: Modeling and Analysis. (Loulou R., Waaub J.-P., Zaccour G., Eds.) Kluwer Academic Publishers.
Geldermann J., Bertsch V., Rentz O. (2006) Multi-Criteria Decision Support and Uncertainty Handling, Propagation and Visualisation for Emergency and Remediation Management. In: (H.-D. Haasis, H. Kopfer, J. Schönberger, Eds.), Operations Research Proceedings 2005, pp. 755-760, Springer, Available at: http://dx.doi.org/10.1007/3-540-32539-5_118.CrossRef
Geldermann, J., Bertsch, V., Treitz, M., French, S., Papamichail, K.N., Hämäläinen, R.P. (2009) Multicriteria Decision Support and Evaluation of Strategies for Nuclear Remediation Management. OMEGA, The International Journal of Management Science 37, 238-251.Google Scholar
Gering F. (2005) Data assimilation methods for improving the prognoses of Radionuclide Deposition from radioecological models with measurements, PhD thesis, Leopold-Franzens-University Innsbruck, Austria.
Hämäläinen R.P., Mustajoki J. (1998) Web-HIPRE Java Applet for Value Tree and AHP Analysis. Computer software, Systems Analysis Laboratory, Helsinki University of Technology.
Hiete M., Ludwig J., Merz M., Bertsch V. (2009) Ökodesign von Gebäuden – Visualisierungstechniken für Mehrzielentscheidungsprobleme. In: Methods of Multicriteria Decision Theory and Applications, (Heyde F., Löhne A., Tammer Ch., Eds.) pp. 57-78, Shaker Verlag Aachen.
Kahneman D., Slovic P., Tversky A. (1982) Judgment under Uncertainty: Heuristics and biases. Cambridge: Cambridge University Press.
Keeney, R.L., Raiffa, H., Rajala, D.W. (1979) Decisions with Multiple Objectives: Preferences and Value Trade-Offs, IEEE Transactions on Systems, Man and Cybernetics 9, 403.CrossRefGoogle Scholar
Keeney R.L., Raiffa H. (1976) Decisions with Multiple Objectives. New York: John Wiley & Sons.
Klein D.A. (1994) Decision-analytic intelligent systems: automated explanation and knowledge acquisition. Lawrence Erlbaum Associates, New Jersey.
Morgan M.G., Henrion M. (1990) Uncertainty: A Guide to Dealing with Uncertainty in Quantitative Risk and Policy Analysis. Cambridge University Press, Cambridge.
Mustajoki, J., Hämäläinen, R.P. (2000) Web-HIPRE: global decision support by value tree and AHP analysis, INFOR 38, 208220.Google Scholar
Mustajoki, J., Hämäläinen, R.P., Lindstedt, M.R.K. (2006) Using intervals for global sensitivity and worst-case analyses in multiattribute value trees, Eur. J. Operat. Res. 174, 278-292.CrossRefGoogle Scholar
Mustajoki, J., Hämäläinen, R.P., Marttunen, M. (2004) Participatory multicriteria decision analysis with Web-HIPRE: a case of lake regulation policy, Environ. Modell. Softw. 19, 537-547.CrossRefGoogle Scholar
Mustajoki, J., Hämäläinen, R.P., Sinkko, K. (2007) Interactive computer support in decision conferencing: Two cases on off-site nuclear emergency management, Decis. Support Syst. 42, 2247-2260.CrossRefGoogle Scholar
Papamichail, K.N., French, S. (2000) Decision support in nuclear emergencies, J. Hazard. Mater. 71, 321-342.CrossRefGoogle ScholarPubMed
Papamichail, K.N., French, S. (2003) Explaining and justifying the advice of a decision support system: a natural language generation approach, Exp. Syst. Appl. 24, 3548.CrossRefGoogle Scholar
Papamichail, K.N., French, S. (2005) Design and evaluation of an intelligent decision support system for nuclear emergencies, Decis. Support Syst. 41, 84-111.CrossRefGoogle Scholar
Päsler-Sauer, J., Schichtel, T. (1997) The Simulation of Early Emergency Actions in RODOS, Radiat. Prot. Dosim. 73, 71-74.CrossRefGoogle Scholar
Raskob W., Bertsch V., Geldermann J., Baig S., Gering F. (2005) Demands to and experience with the Decision Support System RODOS for off-site emergency management in the decision making process in Germany. In: Proceedings of the Second International Conference on Information Systems for Crisis Response and Management, (Van de Walle B., Carlé B., Eds.), Brussels, Belgium, pp. 269-278.
Raskob W., Gering F., Lochard J., Nisbet A., Starostova V., Tomic B. (2008) RODOS: Overview and main achievements of the EURANOS project: European Approach to Nuclear and Radiological Emergency Management and Rehabilitation Strategies. In: Proceedings of the International Conference on Radioecology and Environmental Radioactivity, June 15-20, Bergen, Norway.
Raskob W., Gering F., Bertsch V. (2009) Approaches to visualisation of uncertainties to decision makers in an operational Decision Support System. In: Proceedings of the 6th International Conference on Information Systems for Crisis Response and Management (ISCRAM 2009), May 10-13, Gothenburg, Sweden.
Reiter E., Dale R. (2000) Building applied natural language generation systems. Cambridge University Press, Cambridge, UK.
Stewart, T.J. (1996) Robustness of Additive Value Function Methods in MCDM, J. Multi-Criteria Decis. Anal. 5, 301-309.3.0.CO;2-Q>CrossRefGoogle Scholar
Stewart, T.J. (1992) A critical survey on the status of multiple criteria decision making theory and practice, Omega 20, 569-586.CrossRefGoogle Scholar