Existing tools for 3D building reconstruction usually apply approaches, which are either based on constructive solid geometry (CSG) or boundary representation (B-Rep). After a brief discussion of their respective advantages and disadvantages, the paper will present an alternative approach based on cell decomposition. This type of representation is also well known in solid modelling, and can be used efficiently for building reconstruction. Firstly, topological correct representations of building polyhedrons can be constructed easily from planar surface patches as they can for example be extracted from airborne LIDAR data. Furthermore, constraints between different object parts like co-planarity or right angles can be integrated relatively easy. The approach will be demonstrated exemplarily by a building reconstruction based on airborne LIDAR data and given outlines of the respective buildings. In principle, different levels of generalisation can be defined during reconstruction. This also allows a refinement of an already given building model based on terrestrial LIDAR data as it will be demonstrated in the final part of the paper.
[1]
Martti Mäntylä,et al.
Introduction to Solid Modeling
,
1988
.
[2]
Franz Rottensteiner,et al.
Semi-automatic extraction of buildings based on hybrid adjustment using 3D surface models and management of building data in a TIS
,
2001
.
[3]
B. Gorte.
SEGMENTATION OF TIN-STRUCTURED SURFACE MODELS
,
2002
.
[4]
C. Brenner.
MODELLING 3D OBJECTS USING WEAK CSG PRIMITIVES
,
2004
.
[5]
Norbert Haala,et al.
Efficient integration of aerial and terrestrial laser data for virtual city modeling using LASERMAPs
,
2005
.
[6]
Helmut Mayer,et al.
BUILDING FACADE INTERPRETATION FROM IMAGE SEQUENCES
,
2005
.