Simulating urban land-use changes at a large scale by integrating dynamic land parcel subdivision and vector-based cellular automata.
Yao YaoXiaoping LiuXia LiPenghua LiuYe HongYatao ZhangKe MaiPublished in: Int. J. Geogr. Inf. Sci. (2017)
Keyphrases
- cellular automata
- urban growth
- cellular automata model
- urban land
- cellular automaton
- land use change
- chaotic dynamics
- lattice gas
- discrete dynamical systems
- urban areas
- dynamic environments
- land cover
- management information systems
- path planner
- traffic flow
- pattern formation
- remote sensing
- predator prey
- pedestrian dynamics
- neural network
- multispectral
- state space