ACTIVE AND PASSIVE 3D IMAGING TECHNOLOGIES APPLIED TO WATERLOGGED WOODEN ARTIFACTS FROM SHIPWRECKS

Abstract. The fragility of organic artefacts in presence of water and their volumetric variation caused by the marine life on or surrounding them dictate that their physical dimensions be measured soon after their extraction from the seabed. In an ideal context, it would be appropriate to preserve and restore all the archaeological elements, rapidly and with the latest methods. Unfortunately however, the large number of artefacts makes the cost of such an operation prohibitive for a public institution. For this reason, digital technologies for documentation, restoration, display and conservation are being considered by many institutions working with limited budgets. In this paper, we illustrate the experience of the University of Salento in 3D imaging technology for waterlogged wooden artefacts from shipwrecks. The interest originates from the need to develop a protocol for documentation and digital restoration of archaeological finds discovered along the coast of Torre S. Sabina (BR) Italy. This work has allowed us to explore recent technologies for 3D acquisitions, both underwater and in the laboratory, as well as methods for data processing. These technologies have permitted us to start defining a protocol to follow for all waterlogged wooden artefacts requiring documentation and restoration.

[1]  Djamel Merad,et al.  Underwater Photogrammetry for Archaeology. What Will Be the Next Step , 2013 .

[2]  Julien Beaudry,et al.  Laser scanning system for inspecting large underwater hydroelectric structures , 2010, J. Electronic Imaging.

[3]  Gabriele Guidi,et al.  Wood artworks dimensional monitoring through high-resolution 3D cameras , 2007, Electronic Imaging.

[4]  Benjamin Rennison,et al.  Conservation of waterlogged archaeological corks using supercritical CO2 and treatment monitoring using structured-light 3D scanning , 2013 .

[5]  Graeme Earl,et al.  HMS Stirling Castle, Kent: the Stirling Castle Wood Recording Project: a pilot study to compare traditional and innovative recording techniques for waterlogged wood: archaeological conservation report , 2010 .

[6]  Euan S. Harvey,et al.  A Review of Underwater Stereo-Image Measurement for Marine Biology and Ecology Applications , 2009 .

[7]  Rita Auriemma,et al.  Monitoring and conservation of archaeological wooden elements from ship wrecks using 3D digital imaging , 2013, 2013 Digital Heritage International Congress (DigitalHeritage).

[8]  Paola Palma,et al.  Monitoring of Shipwreck Sites , 2005 .

[9]  Roberto Petriaggi Consolidates Procedures and New Solutions for the in situ Conservation, Recovery and Restoration of Archaeological Wood and Ancient Wrecks from Underwater or Water-Saturated Enviroments. , 2010 .

[10]  Pierre Drap,et al.  Underwater Photogrammetry for Archaeology , 2012 .

[11]  Carlo Beltrame Processi formativi del relitto in ambiente marino mediterraneo , 1998 .

[12]  Waterlogged Organic Artefacts: Guidelines on their Recovery, Analysis and Conservation , 2012 .

[13]  Thomas P. Kersten,et al.  Low-Cost and Open-Source Solutions for Automated Image Orientation - A Critical Overview , 2012, EuroMed.