EDP Sciences logo
Authentification abonné
rechercher
Menu
Accueil Tous les numéros Volume 55 (May 2020) HS1 Radioprotection, 55 (2020) S75-S79 Références
Open Access
Numéro
Radioprotection
Volume 55, May 2020
Coping with uncertainties for improved modelling and decision making in nuclear emergencies. Key results of the CONFIDENCE European research project
Page(s) S75 - S79
Section EARLY PHASE MODELLING
DOI https://doi.org/10.1051/radiopro/2020015
Publié en ligne 1 mai 2020
  • Bedwell P, Korsakissok I, Leadbetter S, Périllat R, Rudas C, Tomas J, Wellings J. 2019. Guidelines for the use of ensembles in the description of uncertainty in atmospheric dispersion modelling: operational applications in the context of an emergency response. CONCERT Deliverable D9.5. Available from https://concert-h2020.eu/en/Publications. [Google Scholar]
  • Bengtsson L, Andrea U, Aspelien T, Batrak Y, Calvo J, de Rooy W, Gleeson E, Hansen-Sass B, Homleid M, Hortal M, Ivarsson K, Lenderink G, Niemela S, Pagh Nielsen K, Onvlee J, Rontu L, Samuelsson P, Santos Munoz D, Subias A, Tijm S, Toll V, Yang X, Ødegaard Koltzow M. 2017. The HARMONIE-AROME model configuration in the ALADIN-HIRLAM NWP system. Mon. Weather Rev. https://doi.org/10.1175/MWR-D-16-0417.1. [PubMed] [Google Scholar]
  • Berge E, Klein H, Ulimoen M, Andronopoulos S, Lind O-C, Salbu B, Syed N. 2019. Guidelines for the use of ensemble calculations in an operational context, indicators to assess the quality of uncertainty modeling and ensemble calculations, and tools for ensemble calculation for use in emergency response, D9.5.2 Ensemble calculation for hypothetical accident scenarios in Europe: the Norway case study. CONCERT Deliverable D9.5. Available from https://concert-h2020.eu/en/Publications. [Google Scholar]
  • Bleher M, Gering F, Stöhlker U, Karhunen T, Nalbandyan-Schwarz A, Woda C, Mafodda A. 2020. Reduction of uncertainties in exposure assessments based on environmental monitoring data. Radioprotection 55(HS1): https://doi.org/10.1051/radiopro/2020016. [Google Scholar]
  • Galmarini S, Bianconi R, Addis R, Andronopoulos S, Astrup P, Bartzis J, Bellasio R, Buckley R, Champion H, Chino M, D’Amours R, Davakis E, Eleveld H, Glaab H, Manning A, Mikkelsen T, Pechinger U, Polreich E, Prodanova M, Slaper H, Syrakov D, Terada H, Van der Auwera L. 2004a. Ensemble dispersion forecasting – Part II: application and evaluation. Atmos. Environ. 38(28): 4619–4632. [Google Scholar]
  • Galmarini S, Bianconi R, Klug W, Mikkelsen T, Addis R, Andronopoulos S, Astrup P, Baklanov A, Bartniki J, Bartzis J, Bellasio R, Bompay F, Buckley R, Bouzom M, Champion H, D’Amours R, Davakis E, Eleveld H, Geertsema G, Glaab H, Kollax M, Ilvonen M, Manning A, Pechinger U, Persson C, Polreich E, Potemski S, Prodanova M, Saltbones J, Slaper H, Sofiev M, Syrakov D, Sorensen J, Van der Auwera L, Valkama I, Zelazny R. 2004b. Can the confidence in long range atmospheric transport models be increased? The pan-european experience of ensemble. Radiat. Prot. Dosim. 109(1-2): 19–24. [CrossRef] [Google Scholar]
  • Galmarini S, Bianconi R, Klug W, Mikkelsen T, Addis R, Andronopoulos S, Astrup P, Baklanov A, Bartniki J, Bartzis J, Bellasio R, Bompay F, Buckley R, Bouzom M, Champion H, D’Amours R, Davakis E, Eleveld H, Geertsema G, Glaab H, Kollax M, Ilvonen M, Manning A, Pechinger U, Persson C, Polreich E, Potemski S, Prodanova M, Saltbones J, Slaper H, Sofiev M, Syrakov D, Sorensen J, Van der Auwera L, Valkama I, Zelazny R. 2004c. Ensemble dispersion forecasting – Part I: concept, approach and indicators. Atmos. Environ. 38(28): 4607–4617. [Google Scholar]
  • Hamburger T, Gering F, Ievdin I, Schantz S. 2019. Guidelines for the use of ensemble calculations in an operational context, indicators to assess the quality of uncertainty modeling and ensemble calculations, and tools for ensemble calculation for use in emergency response, D9.5.4 Uncertainty propagation through a terrestrial food chain and dose model. CONCERT Deliverable D9.5. Available from https://concert-h2020.eu/en/Publications. [Google Scholar]
  • Klonner R. 2013. Clustering ECMWF ENS ensemble predictions to optimise FLEXPART plume dispersion ensembles. Master’s Thesis, University of Vienna. [Google Scholar]
  • Korsakissok I, Périllat R, Andronopoulos S, Astrup P, Bedwell P, Berge E, Quérel A, Klein H, Leadbetter S, Saunier O, Sogachev A, Tomas J, Ulimoen M. 2019a. Guidelines for the use of ensemble calculations in an operational context, indicators to assess the quality of uncertainty modeling and ensemble calculations, and tools for ensemble calculation for use in emergency response, D9.5.3 Ensemble calculation for a past accident scenario: the Fukushima case study. CONCERT Deliverable D9.5. Available from https://concert-h2020.eu/en/Publications. [Google Scholar]
  • Korsakissok I, Périllat R, Geertsema G, De Vries H, Hamburger T, Tomas J, Andronopoulos S, Bedwell P, Charnock T, Ievdin I, Leadbetter S, Pazmandi T, Rudas C, Scheele R, Sogachev A, Szanto P, Wellings J. 2019b. Guidelines for the use of ensemble calculations in an operational context, indicators to assess the quality of uncertainty modeling and ensemble calculations, and tools for ensemble calculation for use in emergency response, D9.5.1 Ensemble calculations for the atmospheric dispersion of radionuclides. Hypothetical accident scenarios in Europe: the REM case studies. CONCERT Deliverable D9.5. Available from https://concert-h2020.eu/en/Publications. [Google Scholar]
  • Lahtinen J, Aage H, Ammann M. 2010. Guidance on monitoring and data assimilation, Radioprotection 45(5): S161–S169. [EDP Sciences] [Google Scholar]
  • Mathieu A, Korsakissok I, Périllat R, Chevalier-Jabet K, Stephani F, Fougerolle S, Créach V, Cogez E, Bedwell P. 2018. Guidelines ranking uncertainties for atmospheric dispersion, D9.1.3 Guidelines describing source term uncertainties. CONCERT Deliverable D9.1. Available from https://concert-h2020.eu/en/Publications. [Google Scholar]
  • Tomas J, Twenhöfel C. 2019. The effects of uncertainties on the radiological assessment in the (pre-) release phase of a nuclear accident. In: 19th International Conference on Harmonisation within Atmospheric Dispersion Modelling for Regulatory Purposes, Bruges, Belgium. [Google Scholar]

Les statistiques affichées correspondent au cumul d'une part des vues des résumés de l'article et d'autre part des vues et téléchargements de l'article plein-texte (PDF, Full-HTML, ePub... selon les formats disponibles) sur la platefome Vision4Press.

Les statistiques sont disponibles avec un délai de 48 à 96 heures et sont mises à jour quotidiennement en semaine.

Le chargement des statistiques peut être long.