Abstract
This study examines the human behavioral dynamics of pedestrians crossing a street with vehicular traffic. To this end, an experiment was constructed in which human participants cross a road between two moving vehicles in a virtual reality setting. A mathematical model is developed in which the position is given by a simple function. The model is used to extract information on each crossing by performing root-mean-square deviation (RMSD) minimization of the function from the data. By isolating the parameter adjusted to gap features, we find that the subjects primarily changed the timing of the acceleration to adjust to changing gap conditions, rather than walking speed or duration of acceleration. Moreover, this parameter was also adjusted to the vehicle speed and vehicle type, even when the gap size and timing were not changed. The model is found to provide a description of gap affordance via a simple inequality of the fitting parameters. In addition, the model turns out to predict a constant bearing angle with the crossing point, which is also observed in the data. We thus conclude that our model provides a mathematical tool useful for modeling crossing behaviors and probing existing models. It may also provide insight into the source of traffic accidents.
Highlights
Pedestrians make up a large portion of traffic accident fatalities, in areas of high population density [1,2]
We have proposed a model for pedestrian crossing and utilized it to extract information from experimental data
Shifts in t a have been observed in response to the speed of the gap and the size of the surrounding vehicles, even if the gap affordance remains the same, indicating that these environmental factors can change the visual perception of the gap
Summary
Pedestrians make up a large portion of traffic accident fatalities, in areas of high population density [1,2]. The task of crossing a road involves a goal-directed movement, as the pedestrian desires to reach the other side of the street subject to the avoidance condition due to passing vehicles. This relates the problem to studies on human behavior during tasks of avoidance [3,5] as well as interception [6,7,8]. The constant bearing-angle model has gained attention as a possible strategy that humans employ in order to intercept moving objects [6,7,8]. Statistical analyses of pedestrian inter-vehicle gap acceptance rates, which depend on the pedestrian’s perception of affordance, have been reported [16]; these studies, do not typically provide a dynamic model of action
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