Abstract
Abstract. In the recent past, several heritage structures have faced destruction due to both human-made incidents and natural calamities that have caused a great loss to the human race regarding its cultural achievements. In this context, the importance of documenting such structures to create a substantial database cannot be emphasised enough. The Clock Tower of Dehradun, India is one such structure. There is a lack of sufficient information in the digital domain, which justified the need to carry out this study. Thus, an attempt has been made to gauge the possibilities of using open source 3D tools such as VSfM to quickly and easily obtain point clouds of an object and assess its quality. The photographs were collected using consumer grade cameras with reasonable effort to ensure overlap. The sparse reconstruction and dense reconstruction were carried out to generate a 3D point cloud model of the tower. A terrestrial laser scanner (TLS) was also used to obtain a point cloud of the tower. The point clouds obtained from the two methods were analyzed to understand the quality of the information present; TLS acquired point cloud being a benchmark to assess the VSfM point cloud. They were compared to analyze the point density and subjected to a plane-fitting test for sample flat portions on the structure. The plane-fitting test revealed the planarity of the point clouds. A Gauss distribution fit yielded a standard deviation of 0.002 and 0.01 for TLS and VSfM, respectively. For more insight, comparisons with Agisoft Photoscan results were also made.
Highlights
1.1 Heritage DocumentationThe human-made and natural factors that have contributed to the destruction of heritage structures have caused significant loss to society in terms of its cultural progress
(b) Figure 5: Plane fitting for two terrestrial laser scanner (TLS) subsets The laser scanner data has a high degree of planarity
We compared the results of the point cloud obtained from TLS, Photoscan and VSfM
Summary
The human-made and natural factors that have contributed to the destruction of heritage structures have caused significant loss to society in terms of its cultural progress. In this context, documentation of heritage structures assumes a greater significance thereby underscoring the importance of creating a comprehensive database of the same. It is possible to generate 3D models of objects in the digital domain. This allows for handling 3D information in more ways than just visualization and easy dissemination of data. Traditional photogrammetry requires skilled approach (Yastikli & Alkis, 2003) to 3D modeling whereas a laser scanner is a very expensive instrument (Westoby, Brasington, Glasser, Hambrey, & Reynolds, 2012)
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