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| Land-Use Change Modeling× | Spatial Microsimulation× | |
|---|---|---|
| Bidang | Human Geography | Human Geography |
| Keluarga | Process / pipeline | Process / pipeline |
| Tahun asal≠ | 2002 | 2016 |
| Pencetus≠ | Peter H. Verburg and colleagues (CLUE-S); broader land-change-science community | Developed in the IPF/microsimulation tradition; synthesized for geography by Lovelace & Dumont |
| Tipe≠ | Family of spatially explicit models simulating land-use and land-cover change | Method for generating and analysing synthetic individual-level populations within small areas |
| Sumber perintis≠ | Verburg, P. H., Soepboer, W., Veldkamp, A., Limpiada, R., Espaldon, V., & Mastura, S. S. A. (2002). Modeling the spatial dynamics of regional land use: the CLUE-S model. Environmental Management, 30(3), 391–405. DOI ↗ | Lovelace, R., & Dumont, M. (2016). Spatial Microsimulation with R. Chapman and Hall/CRC, Boca Raton. ISBN: 9781498711548 |
| Alias | Land Change Modeling, LUCC Simulation, Spatial Land-Use Allocation Modeling, Land-Use Scenario Modeling | Small-Area Population Synthesis, Synthetic Population Generation, Geographical Microsimulation, Spatial Microdata Estimation |
| Terkait | 4 | 4 |
| Ringkasan≠ | Land-use change modeling is the umbrella family of methods that simulate how the land surface is converted between uses — forest to farmland, farmland to city — by combining where change is likely with how much change is demanded. A typical model statistically relates observed change to spatial drivers such as slope, roads, and population, sets future demand for each land-use class from scenarios, and then allocates that demand across space to the most suitable cells, iterating until supply meets demand. The CLUE-S model of Verburg and colleagues, alongside the Land Change Modeler and SLEUTH, exemplifies this demand-plus-allocation architecture that underpins much of land-change science. | Spatial microsimulation is a family of techniques for generating realistic synthetic populations of individuals within small geographic areas, by combining detailed but geographically coarse survey microdata with geographically fine but aggregate census tables. It estimates, for every neighbourhood, a population of individuals whose collective characteristics match the published margins — the right number of each age, sex, income, and tenure group — even though no survey directly samples individuals at that fine scale. Synthesized for the geographic community in Robin Lovelace and Morgane Dumont's 2016 book, it bridges the gap between rich individual data and small-area aggregates so that policy and behaviour can be modelled where people actually live. |
| ScholarGateSet data ↗ |
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