International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B3. Istanbul 2004
the improvement of the exterior orientation by a spatial resec-
tion. Based on this information, the mapping between image
and model can be refined and image texture can be extracted
automatically for the visible facades.
Within our model based refinement of direct georeferencing, the
localization is based on the overall shape of the buildings. This
shape is of course only depicted, if a sufficient distance between
camera station and the depicted building is available. Despite
these limitations, this technique could be used as one compo-
nent of a hybrid system for the area covering provision of ori-
ented images. Based on complete sequences of images the rela-
tive camera motion can be reconstructed (M. Pollefeys et al
2000). Within such a sequence, the availability of the exterior
orientation is only required for some images in order to relate
the complete trajectory to the object coordinate system, which is
defined by the building models. One application based on such
image sequences and existing building models is the elimination
of occlusions during facade texturing (Bóhm 2004).
3.2 Automatic texture selection
If a building model is depicted in multiple images, an automatic
selection of the scene, which is most suitable to provide the re-
quired texture information is feasible. In principle, this selection
can be performed independently for each face of the building.
Figure 8: Wire-frame model mapped to different images
Figure 8 exemplarily demonstrates this situation by mapping a
wire-frame model of a building to two different images. Based
on this transformation, for each image the visibility and the cor-
responding area can be computed for every facade of the 3D
building model. If this information is put to a database, the most
suitable surface texture, which provides the highest available
568
resolution can be selected during the visualisation process. The
result of this step is depicted in Figure 9.
Figure 9: Automatic texture selection from multiple images.
Currently, the surface texture is only selected depending on the
orientations and distances of the single building facades in rela-
tion to the camera stations. In our future work, we are aiming on
the selection of texture depending on the actual virtual view-
point. For this reason, during visualisation texture will be se-
lected from camera stations, which are as close as possible to
the respective virtual viewpoint. By these means distortions re-
sulting from the displacement of image texture i.e. due to pro-
trusions or balconies, which are not modelled geometrically in
the available building model can be minimised.
4. MODEL BASED REGISTRATION OF
TERRESTRIAL LIDAR
For applications aiming on the highest visual quality the provi-
sion of facade texture for existing building models might not be
sufficient. In that case the geometry of the available building
model has to be improved i.e. by terrestrial LIDAR. By these
means a precise measurement of 3D point clouds at the facades
of the building is feasible, which allows for an refinement of the
model in the following steps.
Figure 10: Terrestrial LIDAR measurement registrated to exist-
ing CAD model.
During data collection, the complete coverage of complex ob-
jects like buildings can only be guaranteed, if data from differ-
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