10.4121/uuid:1b27dc6b-b77e-4f18-b035-e8a249f595c0

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Sample data for simulation in Jing-Jin-Ji region Dataset

Sangui Yi,
Vegetation distribution simulations could help to understand vegetation distribution patterns and trends, but it is difficult to accurately simulate the distribution of vegetation especially in regions that are heavily affected by human disturbance. Climate, topographic, and spectral data were used as input predictor variables of four machine learning models, including the random forest (RF), decision tree (DT), support vector machine (SVM) and maximum likelihood methods, in three vegetation classification units, including the vegetation group, vegetation type, and formation and subformation, in the Jing-Jin-Ji region, which is one of the most developed regions in China. A total of 2789 vegetation points were used for model training, and 974 vegetation points were used for model assessment. The result showed that the random forest method was the best of the four models and could simulate the distribution of the vegetation in all three classification units well. Kappa coefficients indicated that the random forest

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