In this paper we present a methodology for the digitization, the survey and the visualization of a 3D model built from a large scale object that combines the use of different hardware, software and geometric data. The results are a detailed virtual model used for the documentation of the preservation status of the artifact and a simplified 3D model for the navigation with an immersive stereoscopic visualization system.
BrunoF., 2010. From 3D reconstruction to virtual reality: A complete methodology for digital archaeological exhibition, Journal of Cultural Heritage11 (2010) 42–49.
2.
ErgunB., 2010. A novel 3D geometric object filtering function for application in indoor area with terrestrial laser scanning data, Optics & Laser Technology42, pp. 799–804.
3.
FowlesP.S.LarsonJ.H.DeanC.SolajicM.The laser recording and virtual restoration of a wooden sculpture of Buddha, Journal of cultural heritage4 (2003) 367–371.
4.
LichtiD., 2004. A resolution measure for terrestrial laser scanners, In: International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences34, Part B5, pp. 552–558.
5.
SaloniaP., 2009. Multi-scale cultural heritage survey: Quick digital photogrammetric systems, Journal of Cultural Heritage10S (2009) e59–e64.
6.
ShashiM.JainK.Use of photogrammetry in 3d modeling and visualization of buildings. ARPN Journal of Engineering and Appliedsciences, Vol 2(2), 37–41, 2007.
7.
SnavelyN.SeitzS.M.SzeliskiR.Modeling the World from Internet Photo Collections. International Journal of Computer Vision (2007).
8.
AkcaD.RemondinoF.NovàkD.HanuschT.SchrotterG.GruenA.Recording and modeling of cultural heritage objects with coded structured light projection systems, in: Proceedings of 2nd International Conference on Remote Sensing in Archaeology, “From Space To Place”, Rome, 4–7 December 2006 (BAR International Series 1568), pp. 375–382.
9.
BoulangerP.RiouxM.TaylorJ.LivingstoneF.Automatic replication and recording of museum artifacts. In: Proceedings of 12th International Symposium on the Conservation and Restoration of Cultural Property, Tokyo, Japan1988, pp. 131–147.
10.
FurukawaY.PonceJ.Accurate, Dense, and Robust Multi-View Stereopsis. IEEE Computer Society Conference on Computer Vision and Pattern Recognition, 2007.
11.
OrsiP.Le chiese basiliane della Calabria, Vallecchi EditoreFirenze1929.
12.
SeitzS.M.CurlessB.DiebelJ.ScharsteinD.SzeliskiR.A comparison and evaluation of multi-view stereo reconstruction algorithm. CVPR, 2006 pp.519–52.
13.
StathopoulouE. K.LermaJ. L.GeorgopoulosA.Geometric documentation of the almoina door of the cathedral of Valencia, in Proceedings of EuroMed2010 3rd International Conference dedicated on Digital Heritage, Limassol, Cyprus, 2010.
14.
TsioukasV.PatiasP.JacobsP.F.A Novel System for the 3D Reconstruction of Small Archaeological Objects, in: Proceedings of XXth Congress of ISPRS, Vol, XXXV, Part B5, ISSN:1682–1750, Istanbul, Turkey, 2004.
15.
ValanisA.FournarosS.GeorgopoulosA.Photogrammetric texture mapping of complex objects, in Proceedings of Eur-oMed2010 3rd International Conference dedicated on Digital Heritage, Limassol, Cyprus, 2010.
