Development and testing of a statistical texture model for land cover classification of the Black Sea region with MODIS imagery

Development and testing of a statistical texture model for land cover classification of the Black Sea region with MODIS imagery

A statistical model is proposed for analysis of the texture of land cover types for global and regional land cover classification by using texture features extracted by multiresolution image analysis techniques. It consists of four novel indices representing second-order texture, which are calculate...

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Bibliographic Details
Published in:Advances in space research Vol. 46; no. 7; pp. 872 - 878
Main Authors: Tsaneva, M.G., Krezhova, D.D., Yanev, T.K.
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-10-2010
Elsevier
Subjects:
Astronomy
Earth, ocean, space
Exact sciences and technology
External geophysics
Land cover texture classification
Remote sensing
Satellite images
Texture analysis
Texture features
Black Sea
Texture analysis
Satellite images
Land cover texture classification
Texture features
Remote sensing
Second order
Spectroradiometry
Entropy
Space research
Texture
Multiresolution analysis
Spline
IMAGE satellite
Classification
Standard deviation
Wavelet transforms
Moderate resolution imaging spectroradiometer
Space remote sensing
Regional scope
Satellite observation
Wavelets
Image analysis
Statistical models
Analysis method
Neural networks
Correlations
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Summary:A statistical model is proposed for analysis of the texture of land cover types for global and regional land cover classification by using texture features extracted by multiresolution image analysis techniques. It consists of four novel indices representing second-order texture, which are calculated after wavelet decomposition of an image and after texture extraction by a new approach that makes use of a four-pixel texture unit. The model was applied to four satellite images of the Black Sea region, obtained by Terra/MODIS and Aqua/MODIS at different spatial resolution. In single texture classification experiments, we used 15 subimages (50 × 50 pixels) of the selected classes of land covers that are present in the satellite images studied. These subimages were subjected to one-level and two-level decompositions by using orthonormal spline and Gabor-like spline wavelets. The texture indices were calculated and used as feature vectors in the supervised classification system with neural networks. The testing of the model was based on the use of two kinds of widely accepted statistical texture quantities: five texture features determined by the co-occurrence matrix (angular second moment, contrast, correlation, inverse difference moment, entropy), and four statistical texture features determined after the wavelet transformation (mean, standard deviation, energy, entropy). The supervised neural network classification was performed and the discrimination ability of the proposed texture indices was found comparable with that for the sets of five GLCM texture features and four wavelet-based texture features. The results obtained from the neural network classifier showed that the proposed texture model yielded an accuracy of 92.86% on average after orthonormal wavelet decomposition and 100% after Gabor-like wavelet decomposition for texture classification of the examined land cover types on satellite images.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
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content type line 23
ISSN:0273-1177
1879-1948
DOI:10.1016/j.asr.2010.05.011