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Article Dans Une Revue Hydrology and Earth System Sciences Discussions Année : 2009

Terrain surfaces and 3-D landcover classification from small footprint full-waveform lidar data: application to badlands

Résumé

This article presents the use of new remote sensing data acquired from airborne fullwaveform lidar systems. They are active sensors which record altimeter profiles. This paper introduces a set of methodologies for processing these data. These techniques 5 are then applied to a particular landscape, the badlands, but the methodologies are designed to be applied to any other landscape. Indeed, the knowledge of an accurate topography and a landcover classification is a prior knowledge for any hydrological and erosion model. Badlands tend to be the most significant areas of erosion in the world with the highest erosion rate values. Monitoring and predicting erosion within 10 badland mountainous catchments is highly strategic due to the arising downstream consequences and the need for natural hazard mitigation engineering. Additionaly, beyond the altimeter information, full-waveform lidar data are processed to extract intensity and width of echoes. They are related to the target reflectance and geometry. Wa will investigate the relevancy of using lidar-derived Digital Terrain Models (DTMs) and 15 to investigate the potentiality of the intensity and width information for 3-D landcover classification. Considering the novelty and the complexity of such data, they are presented in details as well as guidelines to process them. DTMs are then validated with field measurements. The morphological validation of DTMs is then performed via the computation of hydrological indexes and photo-interpretation. Finally, a 3-D landcover classification is performed using a Support Vector Machine classifier. The introduction of an ortho-rectified optical image in the classification process as well as full-waveform lidar data for hydrological purposes is then discussed.
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Dates et versions

hal-00460965 , version 1 (03-03-2010)

Identifiants

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Frédéric Bretar, A. Chauve, Jean-Stéphane Bailly, C. Mallet, A. Jacome. Terrain surfaces and 3-D landcover classification from small footprint full-waveform lidar data: application to badlands. Hydrology and Earth System Sciences Discussions, 2009, 6, p. 151 - p. 205. ⟨hal-00460965⟩
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