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P. Dorninger, M. Brunner (2010)
Highly Accurate Photorealistic Modeling of Cultural Heritage Assets
(2010)
Maintainable 3D models of cities
S. Vitor, Bostroem Gunnar, Fiocco Marco, Gonçalves João (2006)
Urban 3d Modelling Using Terrestrial Laser Scanners
K. Wenzel, M. Rothermel, N. Haala, D. Fritsch (2013)
SURE – The ifp Software for Dense Image Matching
J. Balsa-Barreiro, D. Fritsch (2015)
Generation of 3D/4D Photorealistic Building Models. The Testbed Area for 4D Cultural Heritage World Project: The Historical Center of Calw (Germany)
C. Sahin, A. Alkis, B. Ergun, S. Kulur, F. Batuk, A. Kılıç (2012)
Producing 3D city model with the combined photogrammetric and laser scanner data in the example of Taksim Cumhuriyet squareOptics and Lasers in Engineering, 50
K. Hammoudi, F. Dornaika, N. Paparoditis (2011)
Generating Virtual 3D Model of Urban Street Facades by Fusing Terrestrial Multi-source Data2011 Seventh International Conference on Intelligent Environments
A. Large (2009)
Laser Scanning for the Environmental Sciences
T. Tang, Wenji Zhao, H. Gong, Aiwu Zhang, Jiangang Pan, Zhiqiang Liu (2008)
Terrestrial laser scan survey and 3D TIN model construction of urban buildings in a geospatial databaseGeocarto International, 23
A. Guarnieria, F. Remondinob, A. Vettorea (2006)
DIGITAL PHOTOGRAMMETRY AND TLS DATA FUSION APPLIED TO CULTURAL HERITAGE 3D MODELING
(2015)
Overview report of the Nepal cultural emergency Crowdmap initiative
F. Biljecki, J. Stoter, H. Ledoux, S. Zlatanova, A. Çöltekin (2015)
Applications of 3D City Models: State of the Art ReviewISPRS Int. J. Geo Inf., 4
Hung-Ming Cheng (2012)
The Workflows of 3D Digitizing Heritage Monuments
P. Treleaven, J. Wells (2007)
3D Body Scanning and Healthcare ApplicationsComputer, 40
N. Haala, M. Rothermel, S. Cavegn (2015)
Extracting 3D urban models from oblique aerial images2015 Joint Urban Remote Sensing Event (JURSE)
R. Schraft, B. Graf, A. Traub, D. John (2001)
A mobile robot platform for assistance and entertainmentIndustrial Robot-an International Journal, 28
E. Oniga (2012)
COMPARATIVE STUDY ON METHODS FOR 3D MODELLING OF URBAN AREASISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
C. Tucker (2002)
Testing and Verification of the Accuracy of 3D Laser Scanning Data
M. Shashi, K. Jain (2007)
USE OF PHOTOGRAMMETRY IN 3D MODELING AND VISUALIZATION OF BUILDINGS
D. Fritsch, Michael Klein (2018)
3D preservation of buildings – Reconstructing the pastMultimedia Tools and Applications, 77
N. Pfeifer, C. Briese (2007)
Laser scanning – principles and applications
R. Prentice (1993)
Tourism and Heritage Attractions
R. Rodríguez, M. Álvarez, M. Miranda, A. Díez, F. Papi, P. Rodríguez (2013)
Obtención de modelos urbanos tridimensionalesInformes De La Construccion, 65
M. Rothermel, K. Wenzel, D. Fritsch, N. Haala (2013)
SURE : PHOTOGRAMMETRIC SURFACE RECONSTRUCTION FROM IMAGER Y
PurposeRepresentative cultural heritage sites and monuments around the world have been lost or damaged by natural disasters, human conflicts and daily erosion and deterioration. Documentation and digital preservation by using three-dimensional (3D) modeling techniques enables to ensure the knowledge and access for future generations. Efficient working methods and techniques should be proposed for this purpose.Design/methodology/approachIn this paper, a methodology for the generation of 3D photorealistic models of representative historical buildings is introduced, for using data are obtained using terrestrial laser scanning systems and photogrammetry.FindingsIn this paper, an approach to reconstruct 3D photorealistic models by using laser scanning and photogrammetric data is shown. Combination of data from both sources offers an improved solution for 3D reconstruction of historical buildings, sites and places. Integration of 3D models into virtual globes and/or software applications can ensure digital preservation and knowledge for next generations.Research limitations/implicationsResults obtained in a concrete building are shown. However, each building or studied area can show some other different drawbacks.Practical implicationsThe study enables to generate 3D and four-dimensional models of most valuable buildings and contribute to the preservation and documentation of the cultural heritage.Social implicationsThe study enables digital documentation and preservation of cultural heritage.Originality/valueA proper solution at field (in a real and complicated case) is explained, in addition to the results, which are shown.
Sensor Review – Emerald Publishing
Published: Jun 18, 2018
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