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Automatic classification of urban ground elements from mobile laser scanning data
Accessibility diagnosis of as-built urban environments is essential for path planning, especially in case of people with reduced mobility and it requires an in-depth knowledge of ground elements. In this paper, we present a new approach for automatically detect and classify urban ground elements from 3D point clouds. The methodology enables a high level of detail classification from the combination of geometric and topological information. The method starts by a planar segmentation followed by a refinement based on split and merge operations. Next, a feature analysis and a geometric decision tree are followed to classify regions in preliminary classes. Finally, adjacency is studied to verify and correct the preliminary classification based on a comparison with a topological graph library. The methodology is tested in four real complex case studies acquired with a Mobile Laser Scanner Device. In total, five classes are considered (roads, sidewalks, treads, risers and curbs). Results show a success rate of 97% in point classification, enough to analyse extensive urban areas from an accessibility point of view. The combination of topology and geometry improves a 10% to 20% the success rate obtained with only the use of geometry. ; Cátedra SCI-EYSA. Smart cities e seguridade vial ; Xunta de Galicia. ED481B 2016/079-0 ; Ministerio de Economía y Competitividad. TIN2016-77158-C4-2-R
Automatic classification of urban ground elements from mobile laser scanning data
Accessibility diagnosis of as-built urban environments is essential for path planning, especially in case of people with reduced mobility and it requires an in-depth knowledge of ground elements. In this paper, we present a new approach for automatically detect and classify urban ground elements from 3D point clouds. The methodology enables a high level of detail classification from the combination of geometric and topological information. The method starts by a planar segmentation followed by a refinement based on split and merge operations. Next, a feature analysis and a geometric decision tree are followed to classify regions in preliminary classes. Finally, adjacency is studied to verify and correct the preliminary classification based on a comparison with a topological graph library. The methodology is tested in four real complex case studies acquired with a Mobile Laser Scanner Device. In total, five classes are considered (roads, sidewalks, treads, risers and curbs). Results show a success rate of 97% in point classification, enough to analyse extensive urban areas from an accessibility point of view. The combination of topology and geometry improves a 10% to 20% the success rate obtained with only the use of geometry. ; Cátedra SCI-EYSA. Smart cities e seguridade vial ; Xunta de Galicia. ED481B 2016/079-0 ; Ministerio de Economía y Competitividad. TIN2016-77158-C4-2-R
Automatic classification of urban ground elements from mobile laser scanning data
Balado Frías, Jesús (Autor:in) / Díaz Vilariño, Lucía (Autor:in) / Arias Sánchez, Pedro (Autor:in) / González Jorge, Higinio (Autor:in)
01.02.2018
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
DDC:
710
Automatic classification of urban ground elements from mobile laser scanning data
British Library Online Contents | 2018
|Automatic classification of urban ground elements from mobile laser scanning data
British Library Online Contents | 2018
|Automatic classification of urban ground elements from mobile laser scanning data
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