Hierarchical decomposition of variance with applications in environmental mapping based on satellite images |
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| Authors: | Ferenc Csillag and Sándor Kabos |
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| Affiliation: | (1) Department of Geography and Institute for Land Information Management, University of Toronto, Erindale College, Mississauga, Ontario, Canada;(2) Institute of Sociology, Eötvös Loránd University, Budapest, Hungary |
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| Abstract: | A quadtree-based image segmentation procedure (HQ) is presented to map complex environmental conditions. It applies a hierarchical nested analysis of variance within the framework of multiresolution wavelet approximation. The procedure leads to an optimal solution for determining mapping units based on spatial variability with constraints on the arrangement and shape of the units. Linkages to geostatisiics are pointed out, but the HQ decomposition algorithm does not require any homogeneity criteria. The computer implementation can be parameterized by either the number of required mapping units or the maximum within-unit variance, or it can provide a  spectrum of significances of nested ANOVA. The detailed mathematical background and methodology is illustrated by a salt-affected grassland mapping study (Hortobágy, Hungary), where heterogeneous environmental characteristics have been sampled and predicted based on remotely sensed images using these principles. |
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| Keywords: | multiresolution approximation nested analysis of variance sampling quadtrees remote sensing geostatistics environmental mapping |
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