The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. Vol. XXXVII. Part B5. Beijing 2008
Subsequently a consistent model combining the statue and the
niche data was generated by co-registration using corresponding
points on the walls of the niche.
For texture mapping the statue dataset mentioned above was
used. Because of lack of texture information in the invisible
regions, only a not fully photorealistically textured model can
be presented. In fact the missing texture was filled up by
artificial texture patterns.
2. DATASETS
To reconstruct the Small Buddha a number of potential data
sources, especially in form of images, were available from the
web, in print media or from individual persons. But also a
contour map was available. Most of the images were useless for
the image-based reconstruction, because of the bad image
quality or the low resolution. From all these potential data
sources only three were used to reconstruct the Small Buddha.
A. The first dataset is a series of nine terrestrial images,
acquired in August 2003, using a digital Sony Cybershot
camera, with 6 Megapixel image format. These images have
been used to cover the empty niche after the demolition of
the statue.
Figure 2. Contour line map
(courtesy Prof. Minoru Inaba )
B. The second dataset consisted of two amateur images,
acquired using a 5.5 x 5.5 cm 2 analogue YASHICA camera
with a focal length of approximately 80 mm, used 1975 by
Hans Werner Mohm, covering large parts of the statue
before demolition, see Figure 1. This dataset is
characterised by very oblique viewing directions and a
small base-distance ratio. In addition, the camera
parameters, except a rough approximation of the focal
length, were unknown. The advantage of these images is the
fairly large image scale and therefore an adequate small
object pixel size.
Figure 1. Images of the dataset B
C. The third dataset is a contour map, published in (Higuchi,
2001), and generated by using metric images of a
photogrammetric campaign, which are not available to the
public, see Figure 2. The quality and resolution of the
printed map, especially in steep regions, is insufficient, due
to merging lines. In some regions it is not possible to
separate them from each other. Furthermore, the
equidistance and the absolute heights were unknown.
3. DATA PROCESSING SEQUENCE
The workflow for the extraction of 3D information from the
three datasets and the combination of these data to generate a
full 3D model of the Small Buddha, is shown in Figure 3.
Figure 3. Workflow of the model reconstruction procedures
4. PROCESSING OF THE INDIVIDUAL DATASETS
4.1 Dataset A
The orientation of the niche dataset, including the estimation of
the camera parameters was done in a previous work with a
standard photogrammetric bundle adjustment using SGAP, an
in-house developed software. Ground control points, acquired
