CIP A 2003 XIX th International Symposium, 30 September - 04 October, 2003, Antalya, Turkey
2. PHOTOGRAMMETRY
2.1 Data collection
Digital Photogrammetry is a measurement technology that can
be used for the extraction of 3D points from digital images.
Thus, Photogrammetry derives all the appropriate
measurements from the images, rather than measuring the
object directly. That is why this technology provides significant
advantages over the conventional surveying methods. Very
often Photogrammetry is used in order to map and document
cultural heritage objects like monuments, sites and artefacts.
Starting from the requisite image orientations (interior, relative
and exterior), Photogrammetry can provide automatic process
through image matching techniques for the collection of 3D
object points. Initially, a cloud of interest points is extracted
from the images. For the acquisition of interest points, the key
point detector Plessey-Grid (Stylianidis, 2003) was used. One
step forward, using cross-correlation or least-squares matching
techniques the extraction of the cloud of 3D points can be
achieved.
data so that they can be input into CAD software packages and
of generating NC-programs for re-production in archaeology.
Solutions for merging effectively independent laser scanner
images into one common coordinate system will be presented.
3.2 Procedures for Merging Images
Several independent images must be merged when the object is
larger than the field of view of the digitizer (camera) or the
object exhibits undercuts. A very straightforward solution is
using identical points in the overlapping area of neighboring
images. This requires that these points appear with high
contrast. In cases where identical points cannot be identified on
the object itself, so called reference spheres can be applied
(Wehr, 2001). Using these aids very precise results can be
yielded.
The Cartesian coordinates that are the result of the digitizing of
freeform objects by the camera are transformed into object
coordinates by special software postprocessor. The coordinates
may now be processed as either NC-commands for copymilling
(duplicating milling) or rapid prototyping machines or in the
data format for the sculptured surface modeller.
2.2 3D Model
Single 3D points cannot provide a global illustration about the
structure of the object. Thereby, the creation of the 3D object
model is a requirement in order to depict the formation and the
real conditions of the object.
Furthermore, the 3D reconstruction is a requirement for further
processes such as the application of visualization and graphics
techniques which are explained in the following sections. In any
case the 3D object model can be developed under standard or
special CAD software.
The case study that is presented concerns an ancient tomb,
while in Fig. 1 the extracted 3D model of the tomb is illustrated.
Figure 1. The 3D model of the tomb
3. 3D RECONSTRUCTION
3.1 Object Reconstruction in Three-Dimensions
The presented example makes clear that one of the results of
Photogrammetry is the generation of point clouds with a large
amount of data which cannot be processed by standard CAD
programs. This section addresses the problems of processing the
3.3 Post processing of Object Coordinates for
Reproduction
A special software functionality is developed for the calculation
and determination of loop contours out of one digitised dataset
or out of the whole digitized object. In absence of a digitized
statue this process is clearly seen in the example of the shop
display mannequin (Figure 1 to Figure 5) and can be achieved
in a two-fold process:
First set the boundaries for the starting and the ending levels of
the calculation. Secondly, the user has the choice to calculate
the contours in iso-distance or according to the curvature (the
first and second deviation) of the object.
Figure 2. The calculated contours and freeform surfaces of a
mannequin
