Keywords: Urban dynamics; Spatio-temporal modeling; Land use change; Urban growth; Autologistic regression;
مقالات ISI (ترجمه نشده)
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: Urban growth; Logistic regression; Autologistic regression; Geographically weighted logistic regression; GIS
Application of GIS to predict malaria hotspots based on Anopheles arabiensis habitat suitability in Southern Africa
Keywords: Getis Ord Gi*; Malaria hotspot; Autologistic regression; Anopheles arabiensis; GIS modelling; Habitat suitability;
Nature reserve requirements for landscape-dependent ungulates: The case of endangered takin (Budorcas taxicolor) in Southwestern China
Keywords: Species distribution models; Large herbivores; Autologistic regression; Conservation strategy; Habitat suitability map; Protected area network;
Land-cover change to forest plantations: Proximate causes and implications for the landscape in south-central Chile
Keywords: Exotic species; Timber plantations; Afforestation; Autologistic regression; Land use change; Spatially explicit models
Autologistic modelling of susceptibility to landsliding in the Central Apennines, Italy
Keywords: Landslide susceptibility; Logistic regression; Autologistic regression; Spatial scale
Landscape-level impact of tropical forest loss and fragmentation on bird occurrence in eastern Guatemala
Keywords: Habitat loss; Habitat fragmentation; Landscape coherence; Scale; Autologistic regression; AIC;
Robust predictions of species distribution: Spatial habitat models for a brood parasite
Keywords: Autologistic regression; GIS; Model validation; Molothrus ater; Predictive mapping; Bird;
Multiple spatial scale logistic and autologistic habitat selection models for northern pygmy owls, along the eastern slopes of Alberta’s Rocky Mountains
Keywords: Alberta; Glaucidium gnoma; Habitat selection; Autologistic regression
The importance of spatial autocorrelation, extent and resolution in predicting forest bird occurrence
Keywords: Bird–habitat relationships; Spatial autocorrelation; Autologistic regression; Geographic Information Systems; Spatial resolution and extent; Model performance