Assessment of multiresolution segmentation for extracting greenhouses from worldview-2 imagery

Año Publicación:  2016
Responsable: M. A. Aguilar et al.
Journal, Volumen y páginas:
ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. XLI-B7. 145-152. 10.5194/isprs-archives-XLI-B7-145-2016.


M. A. Aguilar, F. Aguilar, A. Lorca, E. Guirado, M. Betlej, et al.


The latest breed of very high resolution (VHR) commercial satellites opens new possibilities for cartographic and remote sensing applications. In this way, object based image analysis (OBIA) approach has been proved as the best option when working with VHR satellite imagery. OBIA considers spectral, geometric, textural and topological attributes associated with meaningful image objects. Thus, the first step of OBIA, referred to as segmentation, is to delineate objects of interest. Determination of an optimal segmentation is crucial for a good performance of the second stage in OBIA, the classification process. The main goal of this work is to assess the multiresolution segmentation algorithm provided by eCognition software for delineating greenhouses from WorldView- 2 multispectral orthoimages. Specifically, the focus is on finding the optimal parameters of the multiresolution segmentation approach (i.e., Scale, Shape and Compactness) for plastic greenhouses. The optimum Scale parameter estimation was based on the idea of local variance of object heterogeneity within a scene (ESP2 tool). Moreover, different segmentation results were attained by using different combinations of Shape and Compactness values. Assessment of segmentation quality based on the discrepancy between reference polygons and corresponding image segments was carried out to identify the optimal setting of multiresolution segmentation parameters. Three discrepancy indices were used: Potential Segmentation Error (PSE), Number-of-Segments Ratio (NSR) and Euclidean Distance 2 (ED2).

Keywords: Segmentation, Multiresolution, Object Based Image Analysis, WorldView-2, Scale, Shape, Compactness, Local Variance

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