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3D geometric survey of cultural heritage by UAV in inaccessible coastal or shallow aquatic environments

First published: 10 May 2023 The data that support the findings of this study are openly available in SketchFab at https://sketchfab.com/SimonPena/collections/ archaeological-prospection-26a8363aa06a40f0bc1c1bb4b0f36cc0/. Cultural heritage in coastal or shallow aquatic environments is often located...

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Bibliographic Details
Published in:Archaeological prospection 2023-05
Main Authors: Gil-Docampo, Mariluz, Peña-Villasenín, Simón, Bettencourt, Ana M. S., Juan-Ortiz- Sanz, Peraleda-Vázquez, Sara
Format: Article
Language:English
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Summary:First published: 10 May 2023 The data that support the findings of this study are openly available in SketchFab at https://sketchfab.com/SimonPena/collections/ archaeological-prospection-26a8363aa06a40f0bc1c1bb4b0f36cc0/. Cultural heritage in coastal or shallow aquatic environments is often located in areas where access is difficult or where accurate survey and documentation may not always be possible with terrestrial or aquatic equipment. The combination of photogrammetry and unmanned aerial vehicles (UAVs) generates a range of possibilities across multiple sectors, including history, ethnography and cultural heritage studies. Additionally, these methods can be used to prospect new archaeological sites. This article presents three case studies that use UAV techniques and Structure from Motion and Multiview Stereo (SfM-MVS) photogrammetry to conduct topographic and geometric registrations of archaeological, historical and ethnographic sites (some of which are classified as cultural heritage sites). These examples are located in coastal or shallow aquatic environments that are difficult to survey with traditional methods. The results show that it is possible to carry out detailed geometric registration and heritage prospection over large coastal or shallow aquatic environments using a low-cost UAV. Furthermore, the results of this work show great advantages in terms of cost and quality, even in cases where the seabed is below a shallow water column. Other particularities of SfM-MVS application in aquatic environments are discussed. From an interdisciplinary perspective, this methodology will offer new possibilities for the study, restoration and conservation of archaeological, historical and ethnographic monuments.
ISSN:1075-2196
1099-0763
DOI:10.1002/arp.1901