Citation

Bernardini G, Postacchini M, Quagliarini E, Brocchini M, Cianca C, D'Orazio M. Environ. Model. Softw. 2017; 96: 14-29.

Copyright

(Copyright © 2017, Elsevier Publishing)

DOI

10.1016/j.envsoft.2017.06.007

PMID

unavailable

Abstract

Flood risk assessment in urban regions does not account for human behaviours during emergency. Understanding behaviours during floods and developing related simulators highlight critical phenomena for individuals' safety, during and after the flood, and suggest risk-reduction strategies aimed at helping evacuees. The proposed Flooding Pedestrians' Evacuation Dynamics Simulator (FlooPEDS) combines flood hydrodynamics (based on Nonlinear Shallow Water Equations) and individuals' evacuation (by modifying the Social Force Model). FlooPEDS capabilities are illustrated with reference to an important case study.

RESULTS focus on evacuees' motion and path choices. This preliminary simulator implementation, still raw for practical use by planners and authorities, is already mature to guide the design of innovative resilience-increasing urban solutions (i.e.: architectural components like handrails, raised flooring systems) in specific hazardous urban areas, as support to traditional strategies (i.e.: early warning systems; evacuation plan communication).

Language: en

Keywords

Behavioural model; Flood evacuation; Pedestrians' evacuation; Social force model; Urban flood; Drowning