Abstract
Abstract. The Multi-View Stereo (MVS) technology has improved significantly in the last decade, providing a much denser and more accurate point cloud than before. The point cloud now becomes a valuable data for modelling the LOD2 buildings. However, it is still not accurate enough to replace the lidar point cloud. Its relative high level of noise prevents the accurate interpretation of roof faces, e.g. one planar roof face has uneven surface of points therefore is segmented into many parts. The derived roof topology graphs are quite erroneous and cannot be used to model the buildings using the current methods based on roof topology graphs. We propose a parameter-free algorithm to robustly and precisely derive roof structures and building models. The points connecting roof segments are searched and grouped as structure points and structure boundaries, accordingly presenting the roof corners and boundaries. Their geometries are computed by the plane equations of their attached roof segments. If data available, the algorithm guarantees complete building structures in noisy point clouds and meanwhile achieves global optimized models. Experiments show that, when comparing to the roof topology graph based methods, the novel algorithm achieves consistent quality for both lidar and photogrammetric point clouds. But the new method is fully automatic and is a good alternative for the model-driven method when the processing time is important.
Highlights
1.1 MotivationThe Multi-View Stereo (MVS) technology currently can provide dense and accurate point cloud
The photogrammetric point cloud cannot be used in the typical roof topology graph based building reconstruction methods which are proved to be powerful
The normal building reconstruction methods that are based on roof topology graphs firstly segment the point cloud into roof patches and afterwards search their adjacency relationships
Summary
The Multi-View Stereo (MVS) technology currently can provide dense and accurate point cloud. The photogrammetric point cloud cannot be used in the typical roof topology graph based building reconstruction methods which are proved to be powerful. The normal building reconstruction methods that are based on roof topology graphs firstly segment the point cloud into roof patches and afterwards search their adjacency relationships. Two roof patches are considered to be adjacent if the number of connecting points between the two segments and the length of its intersection line meet the predefined criteria Those parameters are very difficult to define: large values will omit small structures while small values will produce a lot of erroneous intersections. The structure is precisely interpreted based on the parameter-free searching of structure points and boundaries, even when the roof segments are poor and many parts are lost. The nodes of the roof polygons are computed based on the roof planes and their intersections, not on their local neighbouring points
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
