Page 87 - JCAU-6-1
P. 87
Journal of Chinese
Architecture and Urbanism Virtual reconstruction of archaeological sites
Czernuszenko, M., Pape, D., Sandin, D., DeFanti, T., Dawe, G. L., Sciences, 35(5), 401-406.
& Brown, M. D. (1997). The ImmersaDesk and infinity wall Kantaros, A., & Piromalis, D. (2022). Setting up a digital twin
projection-based virtual reality displays. ACM SIGGRAPH assisted greenhouse architecture. American Journal of
Computer Graphics, 31(2), 46-49.
Engineering and Applied Sciences, 15(4), 230-238.
https://doi.org/10.1145/271283.271303
https://doi.org/10.3844/ajeassp.2022.230.238
Dang, X., Liu, W., Hong, Q., Wang, Y., & Chen, X. (2023). Digital Kantaros, A., Ganetsos, T., & Petrescu, F. I. T. (2023a). Three-
twin applications on cultural world heritage sites in China: dimensional printing and 3D scanning: Emerging
A state-of-the-art overview. Journal of Cultural Heritage, 64, technologies exhibiting high potential in the field of cultural
228-243.
heritage. Applied Sciences, 13(8), 4777.
https://doi.org/10.1016/j.culher.2023.10.005
https://doi.org/10.3390/app13084777
Diamond. (2016). The Temple of Dendur: From the Nile to NYC Lenda, G., Kudrys, J., & Fryc, D. (2023). Sub-centimetre
in 360°. Available from: https://www.metmuseum.org/ integration of scanning measurements: UAV and terrestrial-
blogs/digital-underground/2016/facebook-360-temple-of-
dendur [Last accessed: 2023 Oct 30]. based, for determining the shape of a shell structure.
Measurement, 221, 113516.
Gabellone, F. (2022). Digital twin: A new perspective for cultural https://doi.org/10.1016/j.measurement.2023.113516
heritage management and fruition. Acta IMEKO, 11(1), 7.
Lepère, G., & Lemmens, M. (2019). Laser scanning of damaged
https://doi.org/10.21014/acta_imeko.v11i1.1085
historical icons: Surveying technology is heading for
Galantucci, R. A., & Fatiguso, F. (2019). Advanced damage maturity. GIM International: The Worldwide Magazine for
detection techniques in historical buildings using digital Geomatics, 33(6), 19-21.
photogrammetry and 3D surface anlysis. Journal of Cultural Ministry of Water Resources: Five Aspects to Promote the
Heritage, 36, 51-62.
Digital Twin Water Conservancy Construction. (2023).
https://doi.org/10.1016/j.culher.2018.09.014 Available from: https://www.gov.cn/lianbo/bumen/202306/
Godinho, M., Machete, R., Ponte, M., Falcao, A. P., content_6887458.htm [Last accessed: 2023 Aug 30].
Goncalves, A. B., & Bento, R. (2020). BIM as a resource in Murphy, M., McGovern, E., & Pavia, S. (2007). Parametric Vector
heritage management: An application for the national palace Modelling of Laser and Image Surveys of 17 Century
th
of Sintra, Portugal. Journal of Cultural Heritage, 43, 153-162. Classical Architecture in Dublin. In: The 8 International
th
Symposium on Virtual Reality, Archaeology and Cultural
https://doi.org/10.1016/j.culher.2019.11.010
Heritage VAST, p. 27-29.
Grieves, M., & Vickers, J. (2017). Digital twin: Mitigating
unpredictable, undesirable emergent behavior in complex Murphy, M., McGovern, E., & Pavia, S. (2009). Historic building
systems. In: Transdisciplinary Perspectives on Complex information modelling (HBIM). Structural Survey, 27(4),
Systems: New Findings and Approaches. Berlin: Springer 311-327.
International Publishing, p. 85-113. https://doi.org/10.1108/02630800910985108
Jordan-Palomar, I., Tzortzopoulos, P., García-Valldecabres, J., & National Digital Twin Programme. (2022). Available from:
Pellicer, E. (2018). Protocol to manage heritage-building https://www.cdbb.cam.ac.uk/what-we-did/national-digital-
interventions using heritage building information modelling twin-programme [Last accessed: 2023 Aug 30].
(HBIM). Sustainability, 10(4), 908.
Oreni, D., Brumana, R., Georgopoulos, A., & Cuca, B. (2013).
https://doi.org/10.3390/su10040908 HBIM for conservation and management of built heritage:
Jover, R. T., Guill, A. J. R., González, M. C., Fernández, A. A., & Towards a library of vaults and wooden bean floors. ISPRS
Jordá, L. (2016). Structure from Motion (SfM): Una Técnica Annals of the Photogrammetry, Remote Sensing and Spatial
Fotogramétrica de Bajo Coste para la Caracterización Information Sciences, 2, 215-221.
y Monitoreo de Macizos Rocosos. In: Reconocimiento, https://doi.org/10.5194/isprsannals-II-5-W1-215-2013
Tratamiento y Mejora del Terreno: 10º Simposio Nacional Pepe, M., Costantino, D., Alfio, V. S., Restuccia, A. G., &
de Ingeniería Geotécnica: A Coruña, 19, 20 y 21. Sociedad
Española de Mecánica del Suelo e Ingeniería Geotécnica, Papalino, N. M. (2021). Scan to BIM for the digital
p. 209-216. management and representation in 3D GIS environment
of cultural heritage site. Journal of Cultural Heritage,
Kadobayashi, R., Kochi, N., Otani, H., & Furukawa, R. 50, 115-125.
(2004). Comparison and evaluation of laser scanning https://doi.org/10.1016/j.culher.2021.05.006
and photogrammetry and their combined use for digital
recording of cultural heritage. International Archives of the Pierdicca, R., Frontoni, E., Malinverni, E. S., Colosi, F., & Orazi, R.
Photogrammetry, Remote Sensing and Spatial Information (2016). Virtual reconstruction of archaeological heritage
Volume 6 Issue 1 (2024) 14 https://doi.org/10.36922/jcau.1735
