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Library Land-cover classification of an intra-urban environment using high-resolution images and object-based image analysis

Land-cover classification of an intra-urban environment using high-resolution images and object-based image analysis

Land-cover classification of an intra-urban environment using high-resolution images and object-based image analysis

Resource information

Date of publication
December 2012
Resource Language
ISBN / Resource ID
AGRIS:US201400155171
Pages
5973-5995

Detailed, up-to-date information on intra-urban land cover is important for urban planning and management. Differentiation between permeable and impermeable land, for instance, provides data for surface run-off estimates and flood prevention, whereas identification of vegetated areas enables studies of urban micro-climates. In place of maps, high-resolution images, such as those from the satellites IKONOS II, Quickbird, Orbview and WorldView II, can be used after processing. Object-based image analysis (OBIA) is a well-established method for classifying high-resolution images of urban areas. Despite the large number of previous studies of OBIA in the context of intra-urban analysis, there are many issues in this area that are still open to discussion and resolution. Intra-urban analysis using OBIA can be lengthy and complex because of the processing difficulties related to image segmentation, the large number of object attributes to be resolved and the many different methods needed to classify various image objects. To overcome these issues, we performed an experiment consisting of land-cover mapping based on an OBIA approach using an IKONOS II image of a southern sector of São José dos Campos city (covering an area of 12 km² with 50 neighbourhoods), which is located in São Paulo State in south-eastern Brazil. This area contains various occupation and land-use patterns, and it therefore contains a wide range of intra-urban targets. To generate the land-cover map, we proposed an OBIA-based processing framework that combines multi-resolution segmentation, data mining and hierarchical network techniques. The intra-urban land-cover map was then evaluated through an object-based error matrix, and classification accuracy indices were obtained. The final classification, with 11 classes, achieved a global accuracy of 71.91%.

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Authors and Publishers

Author(s), editor(s), contributor(s)

de Pinho, Carolina Moutinho Duque
Fonseca, Leila Maria Garcia
Korting, Thales Sehn
de Almeida, Cláudia Maria
Kux, Hermann Johann Heinrich

Publisher(s)
Data Provider
Geographical focus