Abstract
Underwater cultural heritage sites are subject to constant change, whether due to natural forces such as sediments, waves, currents or human intervention. Until a few decades ago, the documentation and research of these sites was mostly done manually by diving archaeologists. This paper presents the results of the integration of remote sensing technologies with autonomous marine vehicles in order to make the task of site documentation even faster, more accurate, more efficient and more precisely georeferenced. It includes the integration of multibeam sonar, side scan sonar and various cameras into autonomous surface and underwater vehicles, remotely operated vehicle and unmanned aerial vehicle. In total, case studies for nine underwater cultural heritage sites around the Mediterranean region are presented. Each case study contains a brief archaeological background of the site, the methodology of using autonomous marine vehicles and sensors for their documentation, and the results in the form of georeferenced side-scan sonar mosaics, bathymetric models or reconstructed photogrammetric models. It is important to mention that this was the first time that any of the selected sites were documented with sonar technologies or autonomous marine vehicles. The main objective of these surveys was to document and assess the current state of the sites and to establish a basis on which future monitoring operations could be built and compared. Beyond the mere documentation and physical preservation, examples of the use of these results for the digital preservation of the sites in augmented and virtual reality are presented.
Highlights
Knowledge about the Earth and its evolving environment is becoming increasingly important
Since the beam of the multibeam echosounder/sonar (MBES) is around 1°, this means that its minimum trace on the seafloor is 0.01h at the depth h
Pisoni. (c) Details of the submerged Villa Protiro. 2.5 bathymetric models are based on MBES data collected by the autonomous surface vehicles (ASVs) PlaDyBath
Summary
Knowledge about the Earth and its evolving environment is becoming increasingly important. This paper presents a case study of nine UCHs that bridges the gap between the methods used exclusively in maritime archaeology, marine robotics and remote sensing. The challenges in these areas are described here along with their possible solutions. The resulting digital reconstructions are often accepted for archaeological purposes and especially for documentation and monitoring activities [4,5] These tools can be used to predict how sites have changed both recently and far in the past, and how they might change in the future. These tangible results can be used as effective tools for public engagement
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