Fuzzy cellular automata with complete number-conserving rule as traffic-flow models with bottleneck

Vector-valued fuzzy cellular automata (VFCA) are dynamical systems that are the continuous counterparts of cellular automata (CA). As such, continuous-valued traffic-flow models can be defined as VFCA that conserve the number of particles. In this study, a VFCA-based traffic model with obstacles on...

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Veröffentlicht in:	JSIAM Letters 2022, Vol.14, pp.143-146
Hauptverfasser:	Nishida, Yuki, Watanabe, Sennosuke, Fukuda, Akiko, Yanagisawa, Daichi
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Sprache:	eng
Schlagworte:	bottleneck cellular automata fuzzy cellular automata TASEP
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creator	Nishida, Yuki Watanabe, Sennosuke Fukuda, Akiko Yanagisawa, Daichi
description	Vector-valued fuzzy cellular automata (VFCA) are dynamical systems that are the continuous counterparts of cellular automata (CA). As such, continuous-valued traffic-flow models can be defined as VFCA that conserve the number of particles. In this study, a VFCA-based traffic model with obstacles on the road is presented. The proposed VFCA model exhibits asymptotic behavior, in the fundamental diagram, similar to a totally asymmetric simple-exclusion process. This observation was also investigated using the mean-field theory by comparing the equations of the two models.
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title	Fuzzy cellular automata with complete number-conserving rule as traffic-flow models with bottleneck
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