ForestFire

Model of Forest Fires

The ForestFire model simulates the development of a forest under influence of fires. Trees grow on a random basis and lightning causes them and the trees in the same cluster to burn down instantaneously; this is the so-called “two state model”.
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Forest state snapshot (grid resolution: 512 x 512).
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Forest age snapshot (grid resolution: 512 x 512). Darker spots represent older trees.
ForestFire simulation output: forest state (left) and age (right) (click to enlarge)

Implementation

The forest is modelled as a cellular automaton where each cell has can be in one of two states: empty or tree.

The update procedure is as follows: in each iteration step, iterate over all cells in a random order. For each cell, one of two actions can take place, depending on the current state of the cell:

  • An empty cell becomes a tree with probability p_growth.
  • A tree ignites with a probability p_lightning and ignites all cells indirectly connected to it. The cluster burns down instantaneously and all cells transition to state empty.

The new state of a cell is applied directly after it was iterated over, i.e. cell states are updated sequentially.

Heterogeneities

There is the possibility to introduce heterogeneities into the grid, which are implemented as two additional possible cell states: source and stone:

  • A cell can be a constantly ignited fire source, instantly burning down a cluster that comes into contact with it.
  • A cell can be a stone, being immune to fire and not taking part in any model dynamics.

These heterogeneities are controlled via the ignite_permanantly and stones entries of the model configuration, which both make use of the entity selection interface.

Data Output

The following data is stored alongside the simulation:

  • kind: the state of each cell. Possible values:

    • 0: empty
    • 1: tree
    • 2: (not used)
    • 3: source, is constantly ignited
    • 4: stone, does not take part in any interaction
  • age: the age of each tree, reset after lightning strikes

  • cluster_id: a number identifying to which cluster a cell belongs; 0 for non-tree cells

  • tree_density: the global tree density


References

  • Per Bak, Kan Chen, and Chao Tang, 1990: A forest-fire model and some thoughts on turbulence, Physics Letters A, 147, (5-6), 297–300, DOI: 10.1016/0375-9601(90)90451-S.
  • Barbara Drossel and Franz Schwabl, 1992: Self-organized critical forest-fire model, Physical Review Letters, 69, 1629, DOI: 10.1103/PhysRevLett.69.1629