论文信息 - Real-Time Evacuation Simulation in Mine Interior Model of Smoke and Action

Real-Time Evacuation Simulation in Mine Interior Model of Smoke and Action

Virtual human crowd models have been used in the simulation of building and urban evacuation, but have not yet applied to underground coal mine operations and escape situations with emphasis on smoke, fires and physiological behaviors. We explore this through a real-time simulation model, MIMOSA (Mine Interior Model Of Smoke and Action), which integrates an underground coal mine virtual environment, a fire and smoke propagation model, and a human physiology and behavior model. Each individual agent has a set of physiological parameters as variables of time and environment, simulating a miner’s physiological condition during normal operations as well as during emergencies due to fire and smoke. To obtain appropriate agent navigation in the mine environment, we have extended the HiDAC framework (HighDensity Autonomous Crowds) navigation from a grid-based cell-portal graph to a geometrybased portal path and integrated a novel cellportal and shortest path visibility algorithm.

[1] M. Egan. Summary of combustion products from mine materials : their relevance to mine fire detection , .

[2] C. D. Litton,et al. Behavioral and organizational dimensions of underground mine fires , 2000 .

[3] Norman I. Badler,et al. Virtual Crowds: Methods, Simulation, and Control , 2008, Virtual Crowds: Methods, Simulation, and Control.

[4] C. Kuenzer,et al. Numerical modeling for analyzing thermal surface anomalies induced by underground coal fires , 2008 .

[5] Haiyang Wang. Prediction of soot and carbon monoxide production in a ventilated tunnel fire by using a computer simulation , 2009 .