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| Model CA-Markov zmiany użytkowania gruntów× | Modelowanie agentowe (ABM)× | Automaty komórkowe× | Ścieżka najmniejszego kosztu / Analiza kosztu-dystansu× | |
|---|---|---|---|---|
| Dziedzina≠ | Analiza przestrzenna | Symulacja | Symulacja | Analiza przestrzenna |
| Rodzina | Process / pipeline | Process / pipeline | Process / pipeline | Process / pipeline |
| Rok powstania≠ | 1997 | 1970s–1990s (formalized as a field) | 1940s–1950s (formalized); 1970 (Conway's Game of Life); 2002 (Wolfram's systematic classification) | 1994 |
| Twórca≠ | Cellular automata (Clarke) + Markov chain (Muller & Middleton) | Thomas Schelling and Robert Axelrod (foundational contributions, 1970s–1990s) | John von Neumann and Stanislaw Ulam (1940s–1950s); popularized by John Conway (1970) and Stephen Wolfram (1980s–2002) | Edsger Dijkstra (shortest path); GIS cost-surface adaptation |
| Typ≠ | Spatio-temporal land-use change simulation | Computational simulation method | Grid-based computational simulation model | Raster cost-surface routing |
| Źródło pierwotne≠ | Clarke, K. C., Hoppen, S., & Gaydos, L. (1997). A self-modifying cellular automaton model of historical urbanization in the San Francisco Bay area. Environment and Planning B, 24(2), 247–261. DOI ↗ | Axelrod, R. (1997). The Complexity of Cooperation: Agent-Based Models of Competition and Collaboration. Princeton University Press. DOI ↗ | Wolfram, S. (2002). A New Kind of Science. Wolfram Media. ISBN: 978-1579550080 | Dijkstra, E. W. (1959). A note on two problems in connexion with graphs. Numerische Mathematik, 1(1), 269–271. DOI ↗ |
| Inne nazwy | CA-Markov model, cellular automata Markov, land-use change simulation, CA-Markov arazi kullanımı modeli | ABM, Ajan Tabanlı Modelleme (ABM), multi-agent simulation, individual-based modeling | CA, Hücresel Otomat (Cellular Automata), lattice model, grid-based simulation | cost-distance analysis, accumulated cost surface, least-cost corridor, en düşük maliyetli yol |
| Pokrewne≠ | 3 | 5 | 5 | 3 |
| Podsumowanie≠ | CA-Markov is a hybrid spatio-temporal model that projects land-use and land-cover change by combining a Markov chain — which predicts how much of each class will change — with cellular automata, which decide where that change happens. Widely used for urban-growth and land-cover forecasting, it answers both the quantity and the location of change, something neither component does well alone. | Agent-based modeling (ABM) is a computational simulation method, formalized through the work of Thomas Schelling and Robert Axelrod in the 1970s–1990s, that simulates the behavior of complex systems by specifying and running autonomous agents — individuals, firms, cells, or any bounded entity — whose local interactions with each other and with their environment collectively produce global, system-level patterns that could not be predicted from any single agent's rules alone. | Cellular automata (CA) is a grid-based computational simulation model, first formalized by John von Neumann and Stanislaw Ulam in the 1940s–1950s and brought to wide attention by John Conway's Game of Life (1970) and Stephen Wolfram's systematic classification (2002), in which a lattice of cells — each holding a finite discrete state — evolves in discrete time steps according to local neighborhood interaction rules, causing complex global patterns to emerge from simple local specifications. | Least-cost path analysis finds the route between two locations that minimizes accumulated travel cost across a landscape, rather than minimizing straight-line distance. By encoding terrain, slope, land cover, and other frictions into a cost surface and accumulating cost outward from a source, it identifies optimal corridors for roads, pipelines, trails, power lines, and wildlife movement — a core raster-GIS technique built on Dijkstra's shortest-path logic. |
| ScholarGateZbiór danych ↗ |
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