2019
DOI: 10.1109/access.2019.2894345
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Simulation of the Separating Crowd Behavior in a T-Shaped Channel Based on the Social Force Model

Abstract: The separating behavior defines the division of a crowd from a single flow into two distributary flows due to the different pedestrians' destinations. Nevertheless, in the existing literature on pedestrian flow, there is a lack of simulation research on the separating crowd behavior in a T-shaped channel. By conducting a series of controlled experiments, we analyzed the moving trajectories and the spatial and temporal distribution characteristics of pedestrians in the separation process. Based on an analysis o… Show more

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Cited by 20 publications
(17 citation statements)
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“…Many researchers have suggested using different techniques to detect crowd behavior, such as using video cameras[7,21,27], a tracklet-based model[28], a hybrid tracking model and a GSLM-based neural network[29], the particle entropy[30], and energy models[31], an Air Patrol Robot[32], an entropic path-integral model[33,34], and so on. In addition, a few researchers have analyzed the crowd behavior under different circumstances, such as during an earthquake evacuation[35], in a t-shaped channel[36], in a football stadium[37] and during high-stress evacuations[38].…”
Section: Introductionmentioning
confidence: 99%
“…Many researchers have suggested using different techniques to detect crowd behavior, such as using video cameras[7,21,27], a tracklet-based model[28], a hybrid tracking model and a GSLM-based neural network[29], the particle entropy[30], and energy models[31], an Air Patrol Robot[32], an entropic path-integral model[33,34], and so on. In addition, a few researchers have analyzed the crowd behavior under different circumstances, such as during an earthquake evacuation[35], in a t-shaped channel[36], in a football stadium[37] and during high-stress evacuations[38].…”
Section: Introductionmentioning
confidence: 99%
“…If the pedestrians touch each other, r ij − d ij > 0, then g(x) = x, otherwise, g(x) = 0. n ij is the normalized vector pointing from pedestrian j to i. Similarly, the repulsive force from neighboring walls can be defined as: (19) where d iw is the distance between pedestrian i and wall w. n iw is the normalized vector pointing from wall w to pedestrian i. In summary, the pedestrian can be regarded as an agent who is driven by the force…”
Section: Acceleration and Body Collision Modelmentioning
confidence: 99%
“…Therefore, the most popular continuum model is the SFM. The SFM was proposed by Helbing [18] to simulate crowd evacuation and selforganization, and then the extended or modified SFM was developed by considering many more real-life factors [19]. These extensions can be found in [20].…”
Section: Introductionmentioning
confidence: 99%
“…Thus, a better understanding of the dynamics of pedestrian evacuation is needed to improve the safety and evacuation efficiency. Simulation is recognized as effective method for pedestrian dynamic analysis [5]- [9]. Being easily repeated, it can ideally capture the pedestrian dynamic process while saving manpower and material resources.…”
Section: Introductionmentioning
confidence: 99%