Abstract
Abstract. Laser scanning or photogrammetry are useful individual techniques for digital documentation of cultural heritage sites. However, these techniques are of limited usage if cultural heritage such as the Great Wall is in harsh geographical conditions. The Great Wall is usually built on the ridge with cliffs on both sides, so it is very difficult to construct scaffolding. Therefore, the three-dimensional (3D) data obtained from the traditional 3D laser scanning is not complete. As UAV cannot enter the enemy tower, the 3D structure data inside the enemy tower with unmanned aerial vehicle (UAV) photogrammetry is missing. In order to explore effective methods to completely collect the 3D data of cultural heritage under harsh geographical environment, this study focuses on establishing a 3D model and the associated digital documentation for the No.15 enemy tower of the New Guangwu Great Wall using a combination of terrestrial laser scanning and UAV photogrammetry. This paper proposes an integrated data collection method and reduces the layout of image control points using RTK-UAV technology, which improved work efficiency and reduced work risks as well. In this paper, the internal structure data of the Great Wall enemy tower was collected by laser scanning, the external structure data was collected by UAV photogrammetry, and data fusion was based on ICP algorithm. Finally, we obtained the complete and high quality 3D digital documentation of the Great Wall enemy tower, the data can be displayed digitally and help heritage experts complete the Great Wall's restoration. This study demonstrates the potential of integrating terrestrial laser scanning and UAV photogrammetry in 3D digital documentation of cultural heritage sites.
Highlights
The Great Wall is a military defense system in ancient China, involving walls as the main part and a large number of enemy towers, beacon towers, military castles
A three-dimensional model and the associated digital documentation of the No.15 enemy tower of the New Guangwu Great Wall was established by using a combination of terrestrial laser scanning and unmanned aerial vehicle (UAV) photogrammetry
This study focuses on using a combination of terrestrial laser scanning and UAV photogrammetry to establish a 3D model and the associated digital documentation of the No.15 enemy tower of the New Guangwu Great Wall
Summary
The Great Wall is a military defense system in ancient China, involving walls as the main part and a large number of enemy towers, beacon towers, military castles. The Great Wall symbolizes national security and unity, and it has a special meaning for Chinese. It is a UNESCO World Heritage, and a golden calling card for China's cultural heritage. Cultural heritage digital conservation combines modern surveying and mapping technology, computer technology, 3D documentation technology, and other new technologies to retain high-precision 3D digital data, providing scientific basis for the physical repair of the Great Wall. The most widely used 3D acquisition technology is 3D laser scanning and UAV photogrammetry, both of which are independent technologies that can be applied to 3D documentation of cultural heritage. UAV photogrammetry has a higher planar data acquisition rate in upper zones (e.g., the roof of a building) than terrestrial laser scanning (Young Hoon Jo, 2019)
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