Geodesy and Cartography | |
Using pixel-based and object-based methods to classify urban hyperspectral features | |
Saeid Homayouni1  Mohammad Saadatseresht2  Ahmad Hadavand2  Mohammad Javad Valadan Zoej3  Mehdi Mokhtarzadeh3  | |
[1] Department of Geography, University of Ottawa, Ottawa, Canada;Department of Surveying and Geomatics Engineering, College of Engineering, University of Tehran, Tehran, Iran;Faculty of Geodesy and Geomatics, K. N. Toosi University, Tehran, Iran; | |
关键词: hyperspectral; pixel-based; object-based; feature extraction; segmentation; | |
DOI : 10.3846/20296991.2016.1226388 | |
来源: DOAJ |
【 摘 要 】
Object-based image analysis methods have been developed recently. They have since become a very active research topic in the remote sensing community. This is mainly because the researchers have begun to study the spatial structures within the data. In contrast, pixel-based methods only use the spectral content of data. To evaluate the applicability of object-based image analysis methods for land-cover information extraction from hyperspectral data, a comprehensive comparative analysis was performed. In this study, six supervised classification methods were selected from pixel-based category, including the maximum likelihood (ML), fisher linear likelihood (FLL), support vector machine (SVM), binary encoding (BE), spectral angle mapper (SAM) and spectral information divergence (SID). The classifiers were conducted on several features extracted from original spectral bands in order to avoid the problem of the Hughes phenomenon, and obtain a sufficient number of training samples. Three supervised and four unsupervised feature extraction methods were used. Pixel based classification was conducted in the first step of the proposed algorithm. The effective feature number (EFN) was then obtained. Image objects were thereafter created using the fractal net evolution approach (FNEA), the segmentation method implemented in eCognition software. Several experiments have been carried out to find the best segmentation parameters. The classification accuracy of these objects was compared with the accuracy of the pixel-based methods. In these experiments, the Pavia University Campus hyperspectral dataset was used. This dataset was collected by the ROSIS sensor over an urban area in Italy. The results reveal that when using any combination of feature extraction and classification methods, the performance of object-based methods was better than pixel-based ones. Furthermore the statistical analysis of results shows that on average, there is almost an 8 percent improvement in classification accuracy when we use the object-based methods.
【 授权许可】
Unknown