稀释行人动态的路径积分表示

Q4 Engineering 复杂系统与复杂性科学 Pub Date : 2018-04-10 DOI:10.1142/9789813239609_0010
Alessandro Corbetta, F. Toschi
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引用次数: 3

摘要

我们根据路径积分来构建行人动力学建模问题,路径积分最初是在量子力学中引入的一种形式,用于解释量子粒子的行为,后来扩展到量子场论和统计物理学。路径整合能够以轨迹为中心表示行人运动,直接提供观察给定轨迹的概率。这似乎是描述一般情况下行人动态统计特性的最自然的语言。在给定的场地中,单个轨迹可以属于许多可能的使用模式,并且在每个模式中,它们可以显示出很大的可变性。本文首先介绍了路径积分的基本概念,并介绍和讨论了稀释极限下行人动态的路径积分函数概率测度。作为一个说述性的例子,我们将路径积分描述与我们之前为特定人群流动条件(狭窄走廊中的流动)开发的朗格万模型联系起来。基于我们之前的实际测量,我们为这种情况提供了定量正确的路径积分表示。最后,我们展示了如何使用路径积分形式来评估罕见事件(在走廊的情况下,u型转弯)的概率。
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Path-integral representation of diluted pedestrian dynamics
We frame the issue of pedestrian dynamics modeling in terms of path-integrals, a formalism originally introduced in quantum mechanics to account for the behavior of quantum particles, later extended to quantum field theories and to statistical physics. Path-integration enables a trajectory-centric representation of the pedestrian motion, directly providing the probability of observing a given trajectory. This appears as the most natural language to describe the statistical properties of pedestrian dynamics in generic settings. In a given venue, individual trajectories can belong to many possible usage patterns and, within each of them, they can display wide variability. We provide first a primer on path-integration, and we introduce and discuss the path-integral functional probability measure for pedestrian dynamics in the diluted limit. As an illustrative example, we connect the path-integral description to a Langevin model that we developed previously for a particular crowd flow condition (the flow in a narrow corridor). Building on our previous real-life measurements, we provide a quantitatively correct path-integral representation for this condition. Finally, we show how the path-integral formalism can be used to evaluate the probability of rare-events (in the case of the corridor, U-turns).
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来源期刊
复杂系统与复杂性科学
复杂系统与复杂性科学 Engineering-Control and Systems Engineering
CiteScore
0.80
自引率
0.00%
发文量
891
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