Agent-Based Simulation of Building Evacuation after an Earthquake: Coupling Human Behavior with Structural Response
Authored by Z Liu, C C Jacques, S Szyniszewski, J K Guest, B W Schafer, T Igusa, J Mitrani-Reiser
Date Published: 2016
DOI: 10.1061/(asce)nh.1527-6996.0000199
Sponsors:
Center for Public Health Practice by the Centers for Disease Control and Prevention
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Abstract
The safety of building occupants during and immediately after disasters, such as a major earthquake, is highly dependent on the way in which
people interact with the damaged physical environment. While there are
extensive studies on evacuation from undamaged structures and on
structural behavior under seismic and other hazards, research on the
influence of building damage on human evacuation behavior is limited.
This study presents a framework by which models for buildings and human
behavior can be coupled to analyze the dynamic influences of building
damage on the evacuation process. The framework combines nonlinear
dynamic finite-element modeling of structures, probabilistic modeling of
damage, and agent-based modeling of human occupants to investigate the
behavior of people as they interact with each other and with their
dynamically-deteriorating environment as they attempt to evacuate the
building. A case study is presented for a typical three-story commercial
office building subjected to the ground motions of the 1994 Northridge, California earthquake. By using exit flow rates and other measures
related to evacuation time histories as the outcomes of interest, it is
shown how the proposed framework can be used as a tool to enhance
building design and to develop recommendations for improved evacuation
strategies. An important future extension of the work is expanding the
framework for multiple buildings for community-wide models of
postdisaster behavior. (C) 2015 American Society of Civil Engineers.
Tags
Performance
Model
Pedestrian dynamics
Flow
Collapse
Seismic hazard
Finite-element analysis
Fragility functions
Shells