双向流动的新型一维细胞自动机模型的数值和理论分析

Collective dynamics Pub Date : 2024-06-14 DOI:10.17815/cd.2024.151

Kazuya Okamoto, A. Tomoeda

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引用次数: 0

摘要

近年来，描述人群动力学的数学模型研究变得越来越重要。在这些研究中，有人构建了一个描述双向流动的具有身体旋转效应的二维数学模型，并从流速反演的角度证明了其基本图与实际实验数据在性质上是一致的。然而，这一特性在一维数学模型中尚未被提及。在本文中，我们引入了一个新的、更简单的一维细胞自动机模型，通过将著名的 TASEP 扩展为可解晶格模型，重点关注粒子的方向和翻转效果，而不是体旋转。研究发现，我们的模型在数值和理论上都与流速反转的实际现象相吻合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Numerical and Theoretical Analysis of a New One-Dimensional Cellular Automaton Model for Bidirectional Flows

In recent years, research on mathematical models describing crowd dynamics has become increasingly important. Among this research, a two-dimensional mathematical model with the effect of body rotation describing bidirectional flows has been constructed, and its fundamental diagram has been shown to be qualitatively consistent with real experimental data from the perspective of flow rate inversion. However, this property has not been mentioned in one-dimensional mathematical models. In this paper, we introduce a new, simpler, one-dimensional cellular automaton model to focus on the direction of particles and the effect of flipping instead of body rotation by extending the well-known TASEP as a solvable lattice model. Our model was found to be qualitatively consistent with the actual phenomenon of flow rate inversion, both numerically and theoretically.

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