We propose a computational methodology based on complex network theory for distributing fuel breaks to reduce the spread rate and size of wildland fires. The development of fire spread is modeled via a lattice network on the basis of a cellular automata model. We illustrate the proposed approach through a simplistic example which considers a square lattice with periodic boundary conditions with a single type of vegetation and varying density. Simulation results over an ensemble of lattice realizations show that the methodology outperforms significantly the benchmark tactic of random distribution of fuel breaks.
Complex network theory criterion to distribute fuel breaks for the hazard control of fire spread in forests
Russo L
2015
Abstract
We propose a computational methodology based on complex network theory for distributing fuel breaks to reduce the spread rate and size of wildland fires. The development of fire spread is modeled via a lattice network on the basis of a cellular automata model. We illustrate the proposed approach through a simplistic example which considers a square lattice with periodic boundary conditions with a single type of vegetation and varying density. Simulation results over an ensemble of lattice realizations show that the methodology outperforms significantly the benchmark tactic of random distribution of fuel breaks.File in questo prodotto:
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