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Investigation of the accuracy of a three-dimensional model of a monument created using LIDAR iPhone12Pro

Fixation, Monitoring & Assessment of War Consequences and Post-War Reconstruction (NEW)

Authors

First and Last Name Academic degree E-mail Affiliation
Oleksandr Yanchuk Ph.D. o.e.yanchuk [at] nuwm.edu.ua National University of Water and Environmental Engineering
Rivne, Ukraine
Ruslan Yanchuk Ph.D. r.m.yanchuk [at] nuwm.edu.ua National University of Water and Environmental Engineering
Rivne, Ukraine
Anastasiia Kibysh No kibysh_az21 [at] nuwm.edu.ua National University of Water and Environmental Engineering
Rivne, Ukraine
Olha Lazarets No lazarets_az21 [at] nuwm.edu.ua National University of Water and Environmental Engineering
Rivne, Ukraine
Yevhen Tesliuk No teslyuk_ipo21 [at] nuwm.edu.ua TOV ”Rivneavtoshlyahbud”
Rivne, Ukraine

I and my co-authors (if any) authorize the use of the Paper in accordance with the Creative Commons CC BY license

First published on this website: 14.08.2024 - 13:55
Abstract 

In the context of the ongoing russian invasion, cultural monuments are constantly being destroyed, so it is important to have methods to quickly create a three-dimensional digital model of an object. This article investigates the accuracy of creating a three-dimensional model of a monument using the Iphone12Pro LIDAR. We compare the accuracy of scanning the sculptural composition of the "Zmiyeborets" fountain with a professional geodetic scanner and with the help of LIDAR Iphone12Pro. The sculpture measures 4 by 3 metres. It was based on a model obtained with the Faro Laser Scanner Focus 3D. Two point clouds were combined in CloudCompare software and the deviation between them was calculated.

Keywords 
3d model
terrestrial laser scanning
LIDAR Iphone12Pro
points cloud
References 

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Damaged cultural sites in Ukraine verified by UNESCO. (n.d.). UNESCO. Retrieved August 13, 2024, from https://www.unesco.org/en/articles/damaged-cultural-sites-ukraine-verifi...

 

Digitizing heritage for the future. (n.d.). Pixelated Realities. Retrieved August 13, 2024, from https://pixelatedrealities.org/en/

 

Savchyn, I., Tretyak, K., Brusak, I., Lozynskyi, V., Duma, M. (2023). Rapid Fixation and Digitization for Cultural Heritage Preservation in Conflict Zones. International Conference of Young Professionals “GeoTerrace-2023” 2-4 October 2023, Lviv, Ukraine.

 

Save Ukrainian Heritage. Support 3D scanning of Ukrainian monuments. (n.d.). Skeiron. Retrieved August 13, 2024, from https://skeiron.com.ua/ (in Ukrainian).

 

Sobur, S., Bacharz K., Granek, G. (2023). Analysis of two-option integration of unmanned aerial vehicle and terrestrial laser  scanning  data  for  historical  architecture  inventory. Geodesy  and  Cartography, 49(2),  76–87. https://doi.org/10.3846/gac.2023.16990

 

Yanchuk, R., Yanchuk, O., Trohimets, S., Androsyuk, M., Savchyn, I., Lozynskyy V. (2024) Experience in creating a three-dimensional model  of a cultural building based on combined geodetic survey data. Suchasni dosyahnennya heodezychnoyi nauky ta vyrobnytstva, 1(47), 101–109. (in Ukrainian).