Abstract
In this paper, the cellular automaton simulation technology is applied to the evacuation management of sports events, combined with the dynamic analysis method to analyze the collision of people in the evacuation process. At the same time, the cellular automaton model is used to refine the evacuation space to simplify environmental modeling, and the network model is used to determine the individual evacuation path from a macroperspective, simplify modeling, and improve simulation efficiency. In addition, this article simulates the evacuation process of the cellular automaton according to the actual evacuation situation of sports events and constructs the evacuation management system of sports events. Finally, this article evaluates the effect of the model in conjunction with experiments. The experimental results show that the role of the evacuation management system for sports events based on cellular automata proposed in this paper is obvious.
Highlights
The number of stadiums and sports venues with complex structures and diverse functions is rapidly increasing, and sports events of various levels are being held all over the world
The dynamic analysis model of this paper is studied through experimental research, and the performance effect of the cellular automata in the dynamic analysis model is statistically evaluated by the expert evaluation method, and the results shown in Table 2 below are obtained
On the basis of the above research, the evacuation management system of sports events based on the cellular automata constructed in this paper is evaluated, and the evaluation results are shown in Table 3 below
Summary
The number of stadiums and sports venues with complex structures and diverse functions is rapidly increasing, and sports events of various levels are being held all over the world. Dense crowds and large-scale venues often become targets of international terrorist attacks Once these emergencies happen, it will inevitably cause casualties and property losses [3]. Its core idea is to discretize the research object into cells with a finite number of states in space and follow a certain random motion rule in the discretized time This idea and method were adopted by evacuation researchers and established a Journal of Sensors cellular automaton model in the field of evacuation research. The core of the cellular automaton model is the discretization of space and time It divides the evacuation simulation environment into grids of equal size, and each grid is a cell. This paper applies dynamic analysis to the evacuation management process of sports events and simulates the evacuation process of sports events through cellular automata to improve the evacuation management effect of sports events
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