Abstract
In recent years, crowded stampede incidents have occurred frequently, resulting in more and more serious losses. The common cause of such incidents is that when large-scale populations gather in a limited area, the population is highly unstable. In emergency situations, only when the crowd reaches the safe exit as soon as possible within a limited evacuation time to complete evacuation can the loss and casualties be effectively reduced. Therefore, the safety evacuation management of people in public places in emergencies has become a hot topic in the field of public security. Based on the analysis of the factors affecting the crowd path selection, this paper proposes an improved path-planning algorithm based on BEME (Balanced Evacuation for Multiple Exits). And pedestrian evacuation simulation is carried out in multi-exit symmetrical facilities. First, this paper optimizes the update method of the GSDL list in the BEME algorithm as the basis for evacuating pedestrians to choose an exit. Second, the collision between pedestrians is solved by defining the movement rule and collision avoidance strategy. Finally, the algorithm is compared with BEME and traditional path-planning algorithms. The results show that the algorithm can further shorten the global evacuation distance of the symmetrical evacuation scene, effectively balance the number of pedestrians at each exit and reduce the evacuation time. In addition, this improved algorithm uses a collision avoidance strategy to solve the collision and congestion problems in path planning, which helps to maximize evacuation efficiency. Whether the setting of the scene or the setting of the exit, all studies are based on symmetric implementation. This is more in line with the crowd evacuation in the real scene, making the experimental results more meaningful.
Highlights
With the development of the economy and the expansion of the city scale, the daily activities of residents are becoming more and more frequent and concentrated
Such incidents are inevitable, the implementation of effective preventive preparations and evacuation strategies is conducive to significantly reducing the number of casualties in such incidents [3]. Most studies in this field focus on the formulation and optimization of large-scale crowd evacuation strategies after emergencies [4,5,6], and it shows that the lack of exit paths in evacuation areas is the main reason affecting the efficiency of emergency evacuation [7]
The collision avoidance strategy is used to solve conflict problems in evacuation. This algorithm takes the number of pedestrians (NoP) and the number of exits (NoE) in the facility as inputs and plans an exit for each pedestrian individual based on the shortest distance
Summary
With the development of the economy and the expansion of the city scale, the daily activities of residents are becoming more and more frequent and concentrated. This paper analyzes the current situation of theoretical research on crowd evacuation in recent years, explores the motion characteristics of pedestrians in the evacuation process and comprehensively considers the influence of various environmental factors to study the dynamic path-planning algorithm for crowd evacuation. For the safe evacuation of large public buildings, one such model incorporates the predictable spatial change perception into the building environment by analyzing the building structure and pedestrian evacuation behavior to simulate the crowd evacuation in emergency situations [25] Another such model applies the physical model and mathematical model to study the overall movement process of evacuation and the relationship between personnel safety and fire risk under fire accidents [26]
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