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CRISMA framework as an experimental tool for simulation of coastal submersion impacts and preparedness for crisis management
Erlich, M.; Cabal, A.; Coulet, C.; Daou, M.-P.; Grisel, M.; De Groof, A.; Havlik, D.; Aubrecht, C.; Steinnocher, K.; Schlobinski, S.; Zuccaro, G. (2015). CRISMA framework as an experimental tool for simulation of coastal submersion impacts and preparedness for crisis management, in: Mynett, A. (Ed.) 36th IAHR World Congress 2015: deltas of the future and what happens upstream. pp. 4764-4775
In: Mynett, A. (Ed.) (2015). 36th IAHR World Congress 2015: deltas of the future and what happens upstream. IAHR: [s.l.]. ISBN 9781510824348. 7509 pp., more

Available in  Authors 
Document type: Conference paper

Keyword
    Marine
Author keywords
    Coastal submersion; crisis management; simulation; decision support;CRISMA

Authors  Top 
  • Erlich, M.
  • Cabal, A.
  • Coulet, C.
  • Daou, M.-P.
  • Grisel, M.
  • De Groof, A.
  • Havlik, D.
  • Aubrecht, C.
  • Steinnocher, K.
  • Schlobinski, S.
  • Zuccaro, G.

Abstract
    "CRISMA - Modelling crisis management for improved action and preparedness", a collaborative research and development project co-funded by the European Community (2011-2015) developed a generic framework for implementation of simulation-based decision support systems in different domains of the natural or industrial risk ( floods, snowstorms, earthquakes, forest fires, accidental pollutions, mass accidents). The paper outlines the capacity of a CRISMA-based application to simulate mitigation effects of a coastal submersion through a full modelling cycle. In particular, the paper addresses the Reference Application for the Coastal Submersion Domain capabilities of the CRISMA Framework regarding simulation of submersion effects at a range of temporal and spatial scales, preparedness planning, assessment of impacts depending on scenarios based on mitigation options for managing the inundation risks, time dependent vulnerability of dikes in cascading effects and comparison of various flood risk mitigation scenarios.

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