An individual cognitive evacuation behaviour model for agent-based simulation: a case study of a large outdoor event
Authored by Lu Tan, Hui Lin, Lei Wu
Date Published: 2015
DOI: 10.1080/13658816.2015.1030751
Sponsors:
Chinese National Natural Science Foundation
National Key Basic Research Program of China
Council of Hong Kong
Platforms:
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Model Documentation:
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Model Code URLs:
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Abstract
Route selection is a complex issue in simulating the pedestrian's
walking behaviour during the evacuation. In many current studies, the
agent-based model has been widely used to simulate the individualized
behaviour, and growing concern is given to the cognitive aspects in
route selection. However, the influence of incomplete spatial knowledge
and the preferences for different routing strategies has not been fully
considered. To represent more reliable route choice by different
pedestrians, this study presents an individual cognitive evacuation
behaviour model which is mainly focusing on the individual differences
in routing strategy and spatial knowledge. The model consists of two
major components, namely the multiple routing strategies and
personalized spatial cognitive road network. Based on a review of the
previous studies, the potential factors that may affect the evacuation
behaviour were discussed. The quantitative relationships between these
potential factors and the pedestrian's routing preference, as well as
the possibilities of recognizing different roads, were explored using
the regression method. As a case study, the proposed model was
implemented using the data collected from a field survey of a real
outdoor event. When applied in an agent-based simulation, the
implemented model will support more reliable simulation of route choices
corresponding to the pedestrians' behaviour in the real event.
Tags
Dynamics
Maps
People