Abstract
Cultural heritage objects are affected by a wide range of factors causing their deterioration and decay over time such as ground deformations, changes in hydrographic conditions, vibrations or excess of moisture, which can cause scratches and cracks formation in the case of historic buildings. The electromagnetic spectroscopy has been widely used for non-destructive structural health monitoring of concrete structures. However, the limitation of this technology is a lack of geolocalisation in the space for multispectral architectural documentation. The aim of this study is to examine different geolocalisation methods in order to determine the position of the sensor system, which will then allow to georeference the results of measurements performed by this device and apply corrections to the sensor response, which is a crucial element required for further data processing related to the object structure and its features. The classical surveying, terrestrial laser scanning (TLS), and Structure-from-Motion (SfM) photogrammetry methods were used in this investigation at three test sites. The methods were reviewed and investigated. The results indicated that TLS technique should be applied for simple structures and plain textures, while the SfM technique should be used for marble-based and other translucent or semi-translucent structures in order to achieve the highest accuracy for geolocalisation of the proposed sensor system.
Highlights
Cultural heritage objects are still endangered by a wide range of factors causing their deterioration and decay over time
The aim of this article is to investigate the most suitable geolocalisation method for the proposed sensor system as a part of the multisensory platform for Structural health monitoring (SHM) of cultural heritage objects, which will allow to georeference the results of measurements performed by this device and apply corrections to observations acquired by the sensor
The multisensor platform (Figure 4) is a prototype instrument consisting of an electromagnetic sensor and four digital cameras installed on a metal frame, full-frame camera Canon EOS 5D Mark II
Summary
Cultural heritage objects are still endangered by a wide range of factors causing their deterioration and decay over time. Degradation processes are caused by both human activities (e.g., pollution, wrong conservation methods, vandalism) and environmental factors [1,2], including the influence of atmospheric conditions and climate change or biological invasion. For this reason, Sensors 2020, 20, 2915; doi:10.3390/s20102915 www.mdpi.com/journal/sensors. Sensors 2020, 20, 2915 conservatory works are necessary to keep cultural heritage objects and sites in good shape and conditions in order to preserve them for future generations. In order to find proper methods of conservation and maintenance of an antique building as well as to establish work schedule, it is necessary to identify causes of the objects’ degradation [5,6].
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