Abstract
At urban signalized intersections, pedestrian twice-crossing is usually viewed as a complex human behavior, since there are many factors influencing it. Mostly, pedestrians engage in a complicated cognitive process of perception, attention and decision-making. Therefore, it is necessary to identify the major factors affecting this behavior, and develop an effective pedestrian dynamic model, in order to increase the safety and efficiency of crossing streets. This study proposes a force-based model of pedestrian dynamics by improving the classic social force model, in order to determine the influencing factors and quantify the forces acting on pedestrians crossing in two stages at signalized intersections. Through analyzing the characteristics of pedestrian twice-crossing behavior, the social force model was enhanced by providing a new component of the green signal countdown. The improved model includes four parts of the self-driving force in the ideal state, the repulsive and attractive forces generated by surrounding pedestrians, the resistance of the crosswalk boundary line, and the force produced by the green signal countdown. Each part was considered with qualitative analysis and quantitative calculation. The results show that the proposed model can achieve high accuracy in measuring the forces acting on pedestrian twice-crossing. The findings of this study have great implications for designing pedestrian facilities and optimizing pedestrian signal timings, helping thus to increase the mobility and safety of pedestrian twice-crossing.
Highlights
Pedestrian crossing is an important part of the urban transportation system, and it accounts for a significant number of all person trips in an urban area
Pedestrians need to simultaneously deal with a number of different information sources regarding vehicles, pedestrians nearby, signal timing and pedestrian facilities. This is considered as a complicated cognitive process of perception, attention and decision-making. All these issues point towards the research work required for exploring the pedestrian twice-crossing behavior, in order to develop an effective pedestrian dynamic model and increase the safety and efficiency of crossing streets
The social force model has been extensively used in exploring pedestrian dynamics and crowd behavior in evacuation scenarios with restricted areas
Summary
Pedestrian crossing is an important part of the urban transportation system, and it accounts for a significant number of all person trips in an urban area. With the increases in pedestrian traffic, signalized intersections with two-stage pedestrian crossings have become commonplace. Twice-crossing is commonly considered as a varied and complicated human behavior [1]. Pedestrians need to simultaneously deal with a number of different information sources regarding vehicles, pedestrians nearby, signal timing and pedestrian facilities. This is considered as a complicated cognitive process of perception, attention and decision-making. All these issues point towards the research work required for exploring the pedestrian twice-crossing behavior, in order to develop an effective pedestrian dynamic model and increase the safety and efficiency of crossing streets
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