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Title:

Bidirectional Coupling of Macroscopic and Microscopic Approaches for Pedestrian Behavior Prediction

Author(s):
Kneidl, A.; Thiemann, M.; Borrmann, A.; Ruzika, S.; Hamacher, H. W.; Kösterster, G.; Rank, E.
Abstract:
We combine a macroscopic and a microscopic model of pedestrian dynamics with a bidirectional coupling technique to obtain realistic predictions for evacuation times. While the macroscopic model is derived from dynamic network flow theory, the microscopic model is based on a cellular automaton. Output from each model is fed into the other, thus establishing a control cycle. As a result, the gap between the evacuation times computed by both models is narrowed down: the microscopic approach benefit...     »
Keywords:
Cellular Automaton, Dynamic Network Flows, Bidirectional Coupling, Control Cycle, Pedestrian Dynamics, Evacuation Modeling
Editor:
Verlag, Springer
Book / Congress title:
Pedestrian and Evacuation Dynamics 2010
Year:
2010
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