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Library Relevance assessment of full-waveform lidar data for urban area classification

Relevance assessment of full-waveform lidar data for urban area classification

Relevance assessment of full-waveform lidar data for urban area classification

Resource information

Date of publication
december 2011
Resource Language
ISBN / Resource ID
AGRIS:US201600059859

Full-waveform lidar data are increasingly being available. Morphological features can be retrieved from the echoes composing the waveforms, and are now extensively used for a large variety of land-cover mapping issues. However, the genuine contribution of these features with respect to those computed from standard discrete return lidar systems has been barely theoretically investigated. This paper therefore aims to study the potential of full-waveform data through the automatic classification of urban areas in building, ground, and vegetation points. Two waveform processing methods, namely a non-linear least squares method and a marked point process approach, are used to fit the echoes both with symmetric and asymmetric modeling functions. The performance of the extracted full-waveform features for the classification problem are then compared to a large variety of multiple-pulse features thanks to three feature selection methods. A support vector machines classifier is finally used to label the point cloud according to various scenarios based on the rank of the features. This allows to find the best classification strategy as well as the minimal feature subsets allowing to achieve the highest classification accuracy possible for each of the three feature selection methods. The results show that the echo amplitude as well as two features computed from the radiometric calibration of full-waveform data, namely the cross-section and the backscatter coefficient, significantly contribute to the high classification accuracies reported in this paper (around 95%). Conversely, features extracted from the non Gaussian modelling of the echoes are not relevant for the discrimination of vegetation, ground, and buildings in urban areas.

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Authors and Publishers

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

Mallet, Clément
Bretar, Frédéric
Roux, Michel
Soergel, Uwe
Heipke, Christian

Publisher(s)
Data Provider