CIPA 2003 XIX th International Symposium, 30 September - 04 October, 2003, Antalya, Turkey 
522 
since the limitations of the objects that are self-covered 
(concave) are somehow narrowed with the availability of more 
data coverage. Moreover, new products can be available, such 
as the production of ‘3D orthophotos’, which is the 
orthoprojection of photos onto a unified dense DTM of the 
whole object derived from laser scanner data (Lingua and 
Rinaudo, 2001). 
Figure 9. Basic interpretation of laser scanner products is easily 
performed in freely-available viewers 
In this project, various combinations of photogrammetric and 
scanning data of the sculpture of Hermes have been attempted. 
The most important are: 
• testing the compatibility of the two data sets by transferring 
dense (every 1cm on the statue scale) horizontal sections 
derived from the merged data of the photogrammetric 
restitutions, onto the 3D solid model derived from the scans. 
This procedure has indicated the existence of systematic 
errors among the photogrammetric models, that were 
properly corrected 
• orthophoto production (of parts) of the statue using the TIN 
net derived from the scanned data and breaklines 
photogrammetrically produced. 
5. CONCLUDING REMARKS 
Photogrammetry is an elegant measurement method 
traditionally used in cultural heritage applications. The 
shortfalls of this method, mainly associated with limited 
geometry of areas in the shadow of the object, are more 
prominent when the object is a large complex statue, such as the 
one described in this paper. The recent emergence of terrestrial 
laser scanning has shown that has the potential to be of major 
value to the cultural heritage recording professionals. While 
data collection in this project using the two methods indicated a 
small gain in time over laser scanning (two days scanning 
versus three days for photo images), the main advantage is the 
fully automated data capturing process using terrestrial laser 
scanning. Furthermore, this technique does not require the 
relatively strong restrictions to be fulfilled by the stereoscopic 
images, such as having the two different bundles to cover the 
same body parts and the rays to homologous points to intersect 
at good angles. 
While both photogrammetric and laser scanning techniques can 
deliver similar type of products the end users are accustomed to 
have, such as line drawings, DTM etc., the interest mainly lies 
in the supplementary role these types of data can have in 3D 
model creation. In this project independent 3D models of the 
Hermes statue have been created to allow evaluation studies 
being performed. Future work currently concentrates into 
matching and integrating local detailed scanned areas into a 
global model defined by photogrammetry using fairly 
automated operations. 
REFERENCES 
Adolfsson, B., 1997. Documentation and Reconstruction of 
Architectural Elements at the Fortress of Fredriksborg and 
at the Swedish National Art Museum. In: CIPA 
International Archives of Photogrammetry and Remote 
Sensing, Vol. XXXI, part 5C1B, pp.161-167. 
Beraldin, J.A., Blais, F., Boulanger, P., Coumoyer, L., Domey, 
J., El-Hakim, S.F., Godin, G., Rioux, M., Taylor, J., 2000. 
Real world modeling through high resolution digital 3D 
imaging of objects and statues. ISPRS Journal of 
Photogrammetry and Remote Sensing, 55(4), pp. 230-250. 
Henz, G., 2002. Pharaoh Peri I: Documentation of the oldest 
known life-size metal sculpture using laser scanning in 
surveying and photogrammetry. In: CIPA Workshop 
‘Scanning for cultural heritage recording', 21-23 Sept., 
Corfu, Greece (in CD). 
Kern, F., 2001. Supplementing laserscanner geometric data with 
photogrammetric images for modeling. In: The CIPA 
International Archives for Documentation of Cultural 
Heritage, Vol. XVIII, 18-21 Sept., Postdam, Germany, pp. 
454- 461. 
Levoy, M., Pulli, K., Curless, B., Rusinkiewicz, S., Roller, D., 
Pereira, L., Ginzton, M., Anderson, S., Davis, J., Ginsberg, 
J., Shade, J., Fulk, D., 2000. The Digital Michelangelo 
Project: 3D scanning of large statues. In: SIGGRAPH 2000, 
Computer Graphics Proceedings, Annual Conference 
Series, pp. 131-144. 
Lingua, A., Rinaudo, F., 2001. The statue of Ramsete II - 
Integration of digital photogrammetry and laser scanning 
technique for 3D modeling. In: The CIPA International 
Archives for Documentation of Cultural Heritage, Vol. 
XVIII, 18-21 Sept., Postdam, Germany,pp 206-211. 
Rocchini, C., Cignoni, P., Montani, C., Pingi, P., Scopigno, R., 
Fontana, R., Pezzati, L., Cygielman, M., Giachetti, R., Gori, 
G., 2001. 3Dscanning the Minerva of Arezzo. In: ICHIM 
2001 Conference, vol. 2, pp. 265-272. 
Toumas, E., 2003. Development of videometric system for 
dynamic phenomena monitoring. PhD Thesis, National 
Technical University of Athens, Greece. 181 p (in Greek). 
Tsakiri, M., Ioannidis, C., Carty, A., 2003. Laser scanning 
issues for the geometrical recording of a complex statue. In: 
6 th Conference 'Optical 3-D Measurement Techniques', 22- 
25 September, Zurich, Switzerland.