A virtual reality based fire training simulator integrated with fire dynamics data

SimulationData conversion techniques and a real-time processing framework to develop a fire training simulator on the basis of a precise CFD simulation that is capable of calculating various invisible physical quantities such as toxic gases and heat as well as visible factors such as smoke and flame.

SimulationAlso is noted in the paper:Through a number of user tests involving real fire fighters, it was possible to conduct a simple VR based fire training course (n.a. how the users were involved) pg 20

Performance evaluation

Fire training system structure:Fire training and evaluation logicFire environment resourcesInterface devices between human and computerFirat training simulator

Simulation: Simple missions assigned to a trainee involve approaching the fire source to identify the accident, finding a fire hydrant, re-approaching the fire source to conduct firefighting activities, and finding nearby victims for rescue and evacuation

Propose a framework for interfacing reliable three-dimensional CFD simula tion results into real-time virtual reality systems so that they can be utilized in the development of similar, engineering-based training simulators.

The frame rate is the main indicator for real-time performance of a visualization system; however, it often can vary depending on the number and size of visible objects.Users can experience pre-simulated fire phenomena caused by heat transfer or ventilation facilities from different viewing angles in real-time, but cannot interact with fire or smoke directly by means of user inputs such as extinguishing the fire. This is an important limitation for a training application.

The performance and functions of the system have been verified through simulator implementation and experimentation. The fire CFD data, in particular, contain data on toxic gases and heat, which have direct impacts on fire responses and rescue activities, and thus realistic visualization and experience of these data have helped further improve the effects of the fire training and provide useful knowledge to the inexperienced users.

Simulation / development of VR This study first designed a fire training simulator system that can perform fire training using virtual realityObjective:  Training for general public, firefighters and firefighting commanders to experience road tunnel fires and evaluate safety levels (with a virtual reality based fire training simulator). A vehicular accident occurring in Jukryeong Tunnel, the longest road tunnel in South Korea with a total length of 4.6 km, was selected for simulation