Pedestrian models with congestion effects

Mathematical Models and Methods in Applied Sciences Pub Date : 2024-03-15 DOI:10.1142/s0218202524400050
Pedro Aceves-Sánchez, Rafael Bailo, Pierre Degond, Zoé Mercier
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Abstract

We study the validity of the dissipative Aw–Rascle system as a macroscopic model for pedestrian dynamics. The model uses a congestion term (a singular diffusion term) to enforce capacity constraints in the crowd density while inducing a steering behavior. Furthermore, we introduce a semi-implicit, structure-preserving, and asymptotic-preserving numerical scheme which can handle the numerical solution of the model efficiently. We perform the first numerical simulations of the dissipative Aw–Rascle system in one and two dimensions. We demonstrate the efficiency of the scheme in solving an array of numerical experiments, and we validate the model, ultimately showing that it correctly captures the fundamental diagram of pedestrian flow.

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具有拥堵效应的行人模型
我们研究了耗散 Aw-Rascle 系统作为行人动力学宏观模型的有效性。该模型使用拥挤项(奇异扩散项)来执行人群密度中的容量约束,同时诱导转向行为。此外,我们还引入了一种半隐式、结构保留和渐近保留数值方案,可以高效地处理模型的数值求解。我们首次对耗散 Aw-Rascle 系统进行了一维和二维数值模拟。我们展示了该方案在一系列数值实验中的求解效率,并验证了该模型,最终表明它正确捕捉了行人流的基本图示。
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Mathematical Models and Methods in Applied Sciences
Mathematical Models and Methods in Applied Sciences
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