Cellular automata machines: a new environment for modeling
Cellular automata machines: a new environment for modeling
The lattice Boltzmann equation: a new tool for computational fluid-dynamics
Proceedings of the NATO advanced research workshop on Lattice gas methods for PDE's : theory, applications and hardware: theory, applications and hardware
Simulation of cellular automata
Future Generation Computer Systems - Special issue on cellular automata: promise in computational science
Future Generation Computer Systems - Special issue on cellular automata: promise in computational science
Cellular-automata models applied to natural hazards
Computing in Science and Engineering
Theory of Self-Reproducing Automata
Theory of Self-Reproducing Automata
Artificial Intelligence techniques: An introduction to their use for modelling environmental systems
Mathematics and Computers in Simulation
Hi-index | 0.00 |
Cellular automata are good candidates for modelling and simulating complex dynamical systems, whose evolution depends on the local interactions of their constituent parts. Many macroscopic phenomena have such features, but their complexity involves sometime the interaction of heterogeneous processes, whose composition is not immediate in a cellular automaton frame. Furthermore the managing of flows could be not trivial, because cellular automata and derived models as lattice-gas methods cannot always be applied successfully to macroscopic cases. We propose some empirical and practical rules for modelling some macroscopic phenomena with surface flows. An application to complex debris flows is exhibited together with the results of simulations of a real case.