Simulation of Pedestrian Dynamics with Macroscopic and Microscopic Mathematical Models
Author(s) -
Günter Bärwolff,
Minjie Chen,
Hartmut Schwandt
Publication year - 2017
Publication title -
iranian journal of operations research
Language(s) - English
Resource type - Journals
ISSN - 2008-1189
DOI - 10.29252/iors.8.2.25
Subject(s) - pedestrian , computer science , position (finance) , simulation , estimator , industrial engineering , transport engineering , engineering , mathematics , economics , finance , statistics
Here, we collect two parts of a research project on the pedestrian flow modeling. Rapid growth in the volume of public transport and the need for its reasonable, efficient planning have made the description and modeling of transport and pedestrian behaviors as important research topics in the past twenty years. First, we present a macroscopic model for the pedestrian flow based on continuum mechanical balances. Second, we present a new microscopic modelling method to describe the interaction among pedestrians in conflicting situations. A local navigation based on a continuous density estimator is adopted for the configuration of pedestrians’ temporary route choices on the tactical level. On the operational level, a balancing mechanism is installed to ensure correct execution of the planned position transitions of the pedestrians. A comparison of the test results of our simulation with a real-world video clip is provided.
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