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hiperespectral:wtss-emp [2016/07/27 09:38] – [License] pablo.quesada | hiperespectral:wtss-emp [2016/08/24 12:21] (actual) – [Classification Results] pablo.quesada | ||
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Liña 4: | Liña 4: | ||
published in the [[http:// | published in the [[http:// | ||
- | ====== Abstract | + | ===== Abstract ===== |
The classification of remote sensing hyperspectral images for land cover applications is a very intensive topic. | The classification of remote sensing hyperspectral images for land cover applications is a very intensive topic. | ||
- | In the case of supervised classification, | + | In the case of supervised classification, |
- | the Extreme Learning Machine algorithm (ELM) was extensively used. The classification scheme previously | + | Recently, the Extreme Learning Machine algorithm (ELM) has been extensively used. |
- | published by the authors, and called WT-EMP, introduces spatial information in the classification process by | + | The classification scheme previously published by the authors, and called WT-EMP, introduces spatial information in the classification process by means of an Extended Morphological Profile (EMP) that is created from features extracted by wavelets. |
- | means of an Extended Morphological Profile (EMP) that is created from features extracted by wavelets. | + | In addition, the hyperspectral image is denoised in the 2-D spatial domain, also using wavelets and it is joined to the EMP via a stacked vector. |
- | addition, the hyperspectral image is denoised in the 2-D spatial domain, also using wavelets and it is joined to | + | In this paper, the scheme is improved achieving two goals. |
- | the EMP via a stacked vector. In this paper, the scheme is improved achieving two goals. The first one is to | + | The first one is to reduce the classification time while preserving |
- | reduce the classification time while maintaining | + | The second one is to improve the accuracy results by performing not only a 2-D denoising for every spectral band, but also a previous additional 1-D spectral signature denoising applied to each pixel vector of the image. |
- | The second one is to improve the accuracy results by performing not only a 2-D denoising for every spectral | + | For each denoising the image is transformed by applying a 1-D or 2-D wavelet transform, and then a NeighShrink thresholding is applied. |
- | band, but also a previous additional 1-D spectral signature denoising applied to each pixel vector of the image. | + | Improvements in terms of classification accuracy are obtained, especially for images with close regions in the classification reference map, because in these cases the accuracy of the classification in the edges between |
- | For each denoising the image is transformed by applying a 1-D or 2-D wavelet transform, and then a NeighShrink | + | |
- | thresholding is applied. Improvements in terms of classification accuracy are obtained, especially for images with | + | |
- | close regions in the classification reference map, because in these cases the accuracy of the classification in the | + | |
- | edges among classes is more relevant. | + | |
+ | ===== Downloads ===== | ||
+ | MATLAB code, including some tools for data management and the training and test samples used in the experiments. | ||
+ | |||
+ | * WTSS-EMP scheme: {{: | ||
+ | * Training / Test samples used in the experiments: | ||
+ | * Hyperspectral datasets from Universidad del Pais Vasco: [[http:// | ||
+ | * Supervised classification carried out using the [[https:// | ||
+ | |||
+ | ==== Classification Results ==== | ||
+ | |||
+ | The following zip files have the output (TXT) produced by the SVM and ELM pixelwise classifiers, | ||
+ | |||
+ | * Pavia Univ.: {{: | ||
+ | * Pavia City: {{: | ||
+ | * Indian Pines: {{: | ||
+ | * Salinas: {{: | ||
===== License ===== | ===== License ===== | ||
{{: | {{: | ||
The underlying research materials for this article are licensed under a [[http:// | The underlying research materials for this article are licensed under a [[http:// |