The RoboCupRescue Simulation project aims at simulating large-scale disasters in order to explore coordination strategies helpful for real-life rescue missions. This can only be achieved if the simulation itself is as close to reality as possible. In this paper, we present a new fire simulator based on a realistic physical model of heat development and heat transport in urban fires. It allows to simulate three different ways of heat transport (radiation, convection, direct transport) and the influence of wind. The protective effects of spraying water on non-burning buildings is also simulated, thus allowing for more strategic and precautionary behavior by the rescue agents. A new direct communication interface between simulators enables them to access their more detailed internal models, thus allowing the simulation of complex interactions, e.g. collapsing building causing fire, and vice-versa. Our experiments showed the simulator to create realistic fire propagations both with an...
Timo A. Nüssle, Alexander Kleiner, Michael Br