 Simulation Modeling of Mixed Motorized and Non-Motorized Traffic Flow in Road Bottleneck Areas Based on Evolutionary Game TheoryXiang Wang, Dan Zhou, Quanhao Ma, Xueyu Zhuge and Guobin Gu European Journal of Engineering and Technologies, 2025, vol. 1, issue 1, 16-24 Abstract: This study proposes an evolutionary game-based simulation model of motorized and non-motorized mixed flow in road bottleneck areas, combining evolutionary game theory and metacellular automata methods to simulate the behaviors and interactions between motorized and non-motorized vehicles in bottleneck areas. The results show that after evolution, the probability of motorized vehicles choosing to slow down is 60%, and the probability of non-motorized vehicles choosing the parallel/overtaking strategy is 50%. Simulation analysis reveals that the traffic delay increases nonlinearly with the increase of traffic density, especially in the bottleneck zone, where the traffic flow exhibits nonlinear transitions in traffic flow characteristics. Based on the simulation results, traffic management measures such as dynamic warning, facility optimization and policy regulation are proposed to improve the capacity and reduce the delay in bottleneck areas. This study provides a new method and theoretical support for traffic management, which is of great significance for optimizing traffic flow in road bottleneck areas. Keywords: road bottleneck area; machine-unmixed flow; evolutionary game; metacellular automata; traffic delay (search for similar items in EconPapers) Downloads: (external link) Related works: Export reference: BibTeX RIS (EndNote, ProCite, RefMan) HTML/Text Persistent link: https://EconPapers.repec.org/RePEc:dba:ejetaa:v:1:y:2025:i:1:p:16-24 Access Statistics for this article More articles in European Journal of Engineering and Technologies from Pinnacle Academic Press |
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