Samenvatting
Chemical terrorist attacks in closed areas are a serious threat to national security. In order to deduct the best reponse with regard to treatment and protective measures, simulation is the best tool, either in-silico or as a real-life exercise. The difficulty of the latter is the great number of resources necessary to set up a large-scale realistic exercise while the limitation of the former is that the model needs to be as realistic as possible to draw relevant conclusions. The complexity in designing and running a realistic and large- scale computer simulation model with pedestrian movement and air/gas flows renders studies near-impossible with current computers. To address the complexity issue, agent-based simulation is usually preferred over a Computational Fluid Dynamics (CFD) approach. The aim of this contribution is to present a method to generate a list of victims with both inhaled doses of the chemical warfare agent sarin (NATO designation GB) and traumatic injuries in an emergency subway evacuation scenario. The method couples a simple gas diffusion model with a crowd dynamics model. The interaction of the crowd follows a social force model (SFM) where the overlaps are used to determine a physical injury distribution.
Originele taal-2 | English |
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Titel | Proceedings of the 36th annual European Simulation and Modelling Conference; |
Uitgeverij | EUROSIS-ETI |
Pagina's | 271-277 |
Aantal pagina's | 7 |
Uitgave | 2022 |
Status | Published - feb 2023 |
Evenement | The 36th annual European Simulation and Modelling Conference - Polytechnic of Porto, Porto, Portugal Duur: 26 okt 2022 → 28 okt 2022 https://eurosis.org/conf/esm/2022/index.html |
Conference
Conference | The 36th annual European Simulation and Modelling Conference |
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Land/Regio | Portugal |
Stad | Porto |
Periode | 26/10/22 → 28/10/22 |
Internet adres |