Crowd dynamics discrete element multi-circle model
Autor: | Robert Masling, B. N. Asmar, Paul Langston |
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Rok vydání: | 2006 |
Předmět: |
Engineering
business.industry Public Health Environmental and Occupational Health Poison control Discrete element method Displacement (vector) Numerical integration Contact force Flow (mathematics) Control theory Position (vector) Safety Risk Reliability and Quality business Representation (mathematics) Safety Research Simulation |
Zdroj: | Safety Science. 44:395-417 |
ISSN: | 0925-7535 |
Popis: | A Discrete Element Method (DEM) technique for modelling crowd dynamics is developed. Each person is represented by three overlapping circles with a position, orientation and velocity in 2D. Contact forces between elements are modelled as well as psychological forces and motive forces and moments. Motion is then modelled in a Newtonian manner with a numerical integration time-stepping scheme. The model is tested on a single enclosure entry scenario where some model parameters are scaled. Motion is generally realistic, although areas for improvement are identified. Flow and contact forces are monitored under different scenarios. The model is then used on a multi-enclosure entry scenario. It is shown that stewarding significantly reduces contact forces and hence risk of injury. The potential for further applications is demonstrated on hypothetical scenarios on the London Underground. It is concluded that the model is reasonably realistic for dense crowd flow scenarios, but more complex situations like a supermarket would require aspects of Artificial Intelligence in the model, which is a feasible development. The three-circle representation gives a reasonable model of the 2D geometry. |
Databáze: | OpenAIRE |
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