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Using Structure from Motion Mapping to Record and Analyze Details of the Colossal Hats (Pukao) of Monumental Statues on Rapa Nui (Easter Island)

Published online by Cambridge University Press:  05 October 2017

Sean W. Hixon*
Affiliation:
Department of Anthropology, Pennsylvania State University, 403 Carpenter Building, University Park, PA 16802, USA
Carl P. Lipo
Affiliation:
Department of Anthropology, State University of New York Binghamton, Science 1, Room 166, Binghamton, NY 13902, USA ([email protected])
Terry L. Hunt
Affiliation:
Robert D. Clark Honors College, University of Oregon, 129 Chapman Hall, Eugene, OR 97403, USA ([email protected])
Christopher Lee
Affiliation:
Department of Geography, California State University, Long Beach, 1250 Bellflower Blvd., Long Beach, CA 90840, USA ([email protected])
*
([email protected], corresponding author)

Abstract

Structure from motion (SfM) mapping is a photogrammetric technique that offers a cost-effective means of creating three-dimensional (3-D) visual representations from overlapping digital photographs. The technique is now used more frequently to document the archaeological record. We demonstrate the utility of SfM by studying red scoria bodies known as pukao from Rapa Nui (Easter Island, Chile). We created 3-D images of 50 pukao that once adorned the massive statues (moai) of Rapa Nui and compare them to 13 additional pukao located in Puna Pau, the island's red scoria pukao quarry. Through SfM, we demonstrate that the majority of these bodies have petroglyphs and other surface features that are relevant to archaeological explanation and are currently at risk of continued degradation.

El mapeo de estructura a partir del movimiento (SfM por sus siglas en inglés) es una técnica fotométrica de bajo costo que permite crear representaciones visuales en tres dimensiones a través de la superposición de fotografías digitales. Actualmente la técnica es usada con más frecuencia para el registro de datos arqueológicos. Aquí demostramos la utilidad de la técnica SfM para estudiar los elementos esculpidos de escoria roja conocidos como pukao de Rapa Nui (Isla de Pascua, Chile). Se crearon imágenes en 3D de 50 pukao que alguna vez decoraron las enormes estatuas (moai) de Rapa Nui y se compararon con 13 pukao adicionales localizados en Puna Pau, la cantera en la isla donde se extraía la escoria roja utilizada para los pukao. A través del uso de la técnica SfM se demuestra que la mayoría de estos elementos tiene petroglifos y otros rasgos superficiales que son relevantes para las explicaciones arqueológicas y que actualmente se encuentran en riesgo de degradación continuada.

Type
Articles
Copyright
Copyright 2017 © Society for American Archaeology 

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References

REFERENCES CITED

Agisoft, LLCA 2011 Agisoft PhotoScan User Manual: Standard Edition. Version 0.8.Google Scholar
Alexander, Craig, Pinz, Axel, and Reinbacher, Christian 2015 Multi-Scale 3D Rock-Art Recording. Digital Applications in Archaeology and Cultural Heritage 2:181195.CrossRefGoogle Scholar
Arles, A., Clerc, P., Sarah, G., Téreygeol, F., Bonnamour, G., Heckes, J., and Klein, A. 2013 3D Reconstruction and Modeling of Subterranean Landscapes in Collaborative Mining Archaeology Projects: Techniques Applications and Experiences. Proceedings of the XXIV International CIPA Symposium:61–66.CrossRefGoogle Scholar
Atkinson, K. B. 1968 The Recording of Some Prehistoric Carvings at Stonehenge. The Photogrammetric Record 6 (31):2431.CrossRefGoogle Scholar
Balletti, C., Beltrame, C., Costa, E., Guerra, F., and Vernier, P. 2015 Photogrammetry in Maritime and Underwater Archaeology: Two Marble Wrecks from Sicily. Proceedings of the SPIE Optical Metrology 9527:95270M–195270M–12.Google Scholar
Balletti, C., Guerra, F., Scocca, V. and Gottardi, C. 2015 3D Integrated Methodologies for the Documentation and the Virtual Reconstruction of an Archaeological Site. The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences 40 (5):215.CrossRefGoogle Scholar
Barsanti, S. Gonizzi, Remondino, Fabio, and Visintini, Domenico 2012 Photogrammetry and Laser Scanning for Archaeological Site 3D Modeling–Some Critical Issues. Proceedings of the Proc. of the 2nd Workshop on “The New Technologies for Aquileia,” V. Roberto, L. Fozzati.Google Scholar
Bertilsson, Ulf 2015 Examples of Application of Modern Digital Techniques and Methods Structure for Motion (SfM) and Multiview Stereo (MVS) for Three Dimensional Documentation of Rock Carvings in Tanum Creating New Opportunities for Interpretation and Dating. Proceedings of the Prospects for Prehistoric Rock Art Research. XXVI Valcamonica Symposium:57–62.Google Scholar
Betts, Matthew W., Maschner, Herbert D. G., Schou, Corey D., Schlader, Robert, Holmes, Jonathan, Clement, Nicholas, and Smuin, Michael 2011 Virtual Zooarchaeology: Building a Web-Based Reference Collection of Northern Vertebrates for Archaeofaunal Research and Education. Journal of Archaeological Science 38 (4):755. e751–755, e759.CrossRefGoogle Scholar
Bevan, Andrew, Li, Xiuzhen, Martinón-Torres, Marcos, Green, Susan, Xia, Yin, Zhao, Kun, Zhao, Zhen, Ma, Shengtao, Cao, Wei, and Rehren, Thilo 2014 Computer Vision, Archaeological Classification and China's Terracotta Warriors. Journal of Archaeological Science 49:249254.CrossRefGoogle Scholar
Bojakowski, Piotr, Bojakowski, Katie Custer, and Naughton, Perry 2015 A Comparison between Structure from Motion and Direct Survey Methodologies on the Warwick. Journal of Maritime Archaeology 10 (2):159180.CrossRefGoogle Scholar
Bonacchi, Chiara, Bevan, Andrew, Pett, Daniel, Keinan-Schoonbaert, Adi, Sparks, Rachael, Wexler, Jennifer, and Wilkin, Neil 2014 Crowd-Sourced Archaeological Research: The MicroPasts Project. Archaeology International 17:6168, DOI: https://doi.org/10.5334/ai.1705 CrossRefGoogle Scholar
Brutto, M. Lo, and Meli, Paola 2012 Computer Vision Tools for 3D Modelling in Archaeology. International Journal of Heritage in the Digital Era 1 (1 suppl): 16.CrossRefGoogle Scholar
Caninas, Joao Carlos, Pires, Hugo, Henriques, Francisco, and Chambino, Mario 2016 Rock Art in Portugal's Border Area. Rock Art Research: The Journal of the Australian Rock Art Research Association (AURA) 33:79.Google Scholar
Carrero-Pazos, Miguel, Vázquez-Martínez, Alia, and Vilas-Estévez, Benito 2016 AsTrend: Towards a New Method for the Study of Ancient Carvings. Journal of Archaeological Science: Reports 9:105119.Google Scholar
Chandler, Jim H., Bryan, Paul, and Fryer, John G. 2007 The Development and Application of a Simple Methodology for Recording Rock Art Using Consumer-Grade Digital Cameras. The Photogrammetric Record 22:1021.CrossRefGoogle Scholar
Charola, A. Elena 1994 Easter Island: The Heritage and Its Conservation. World Monuments Fund. Electronic document, https://www.wmf.org/publication/easter-island-heritage-and-its-conservation, accessed July 30, 2017.Google Scholar
Charola, A. Elena 1997 Death of A Moai: Easter Island Statues: Their Nature, Deterioration and Conservation. Bearsville Press and Cloud Mountain Press, Los Osas, California.Google Scholar
Cignoni, Paolo, Callieri, Marco, Corsini, Massimiliano, Dellepiane, Matteo, Ganovelli, Fabio, and Ranzuglia, Guido 2008 MeshLab: An Open-Source Mesh Processing Tool. Proceedings of the Eurographics Italian Chapter Conference 2008:129–136.Google Scholar
Clarkson, Chris, and Hiscock, Peter 2011 Estimating Original Flake Mass from 3D Scans of Platform Area. Journal of Archaeological Science 38 (5):10621068.CrossRefGoogle Scholar
Clini, P., Frapiccini, N., Mengoni, M., Nespeca, R., and Ruggeri, L. 2016 SFM Technique and Focus Stacking for Digital Documentation of Archaeological Artifacts. ISPRS-International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences:229–236.Google Scholar
Corney, Bolton Glanvill, de Haedo, Felipe González, and Roggeveen, Jacob 1908 The Voyage of Captain Don Felipe González: In the Ship of the Line San Lorenzo, with the Frigate Santa Rosalia in Company, to Easter Island in 1770–1. Preceded by an Extract from Mynheer Jacob Roggeveen's Official Log of His Discovery of and Visit to Easter Island in 1722. Printed for the Hakluyt Society.Google Scholar
Cosmas, John, Itegaki, Take, Green, Damian, Grabczewski, Edward, Weimer, Fred, Van Gool, Luc, Zalesny, Alexy, Vanrintel, Desi, Leberl, Franz, and Grabner, Markus 2001 3D MURALE: A Multimedia System for Archaeology. Proceedings of the Proceedings of the 2001 Conference on Virtual Reality, Archeology, and Cultural Heritage:297–306.CrossRefGoogle Scholar
Curry, Stacy, and Gallaway, Doug 2016 Three-Dimensional Remote Sensing at House in the Horseshoe State Historic Site (31mr20), Moore County, North Carolina. North Carolina Archaeology 65:100107.Google Scholar
Dann, Elizabeth, and Jones, Kevin 1984 The Survey and Recording of Rock Art Sites Using Terrestrial Photogrammetry. Australian Archaeology (19):48–55.CrossRefGoogle Scholar
De Reu, Jeroen, De Clercq, Wim, Sergant, Joris, Deconynck, Jasper, and Laloo, Pieter 2013 Orthophoto Mapping and Digital Surface Modeling for Archaeological Excavations an Image-Based 3D Modeling Approach. Proceedings of the Digital Heritage International Congress (DigitalHeritage), 2013 1:205208.CrossRefGoogle Scholar
De Reu, Jeroen, De Smedt, Philippe, Herremans, Davy, Van Meirvenne, Marc, Laloo, Pieter, and De Clercq, Wim 2014 On Introducing an Image-Based 3D Reconstruction Method in Archaeological Excavation Practice. Journal of Archaeological Science 41:251262.CrossRefGoogle Scholar
De Reu, Jeroen, Plets, Gertjan, Verhoeven, Geert, De Smedt, Philippe, Bats, Machteld, Cherretté, Bart, De Maeyer, Wouter, Deconynck, Jasper, Herremans, Davy, and Laloo, Pieter 2013 Towards a Three-Dimensional Cost-Effective Registration of the Archaeological Heritage. Journal of Archaeological Science 40 (2):11081121.CrossRefGoogle Scholar
Diamond, Jared 2005 Collapse: How Societies Choose to Fail or Succeed. Viking Penguin. New York.Google Scholar
Doneus, Michael, Verhoeven, Geert, Fera, Martin, Briese, Ch, Kucera, Matthias, and Neubauer, Wolfgang 2011 From Deposit to Point Cloud—A Study of Low-Cost Computer Vision Approaches for the Straightforward Documentation of Archaeological Excavations. Geoinformatics FCE CTU 6:8188.CrossRefGoogle Scholar
Dunn, Stuart, and Woolford, Kirk 2012 Reconfiguring Experimental Archaeology Using 3D Reconstruction. EVA London 2012 Electronic Visualisation and the Arts:172–178.CrossRefGoogle Scholar
Dunn, Stuart, Woolford, Kirk, Norman, Sally-Jane, White, Martin, and Barker, Leon 2012 Motion in Place: A Case Study of Archaeological Reconstruction Using Motion Capture. Proceedings of the Revive the Past: Proceedings of the 39th Conference in Computer Applications and Quantitative Methods in Archaeology:98–106.CrossRefGoogle Scholar
Edwards, Edmundo, Marchetti, Raul, Dominichetti, Leopoldo, and Gonzáles-Ferrán, Oscar 1996 When the Earth Trembled, the Statues Fell. Rapa Nui Journal 10:116.Google Scholar
Fischer, Steven R. 2005 Island at the End of the World: The Turbulent History of Easter Island. Reaktion Books, London.Google Scholar
Flenley, John, and Bahn, Paul 2003 The Enigmas of Easter Island. Oxford University Press, Oxford.Google Scholar
Forte, Maurizio, Dell'Unto, Nicolo, Issavi, Justine, Onsurez, Lionel, and Lercari, Nicola 2012 3D Archaeology at Çatalhöyük. International Journal of Heritage in the Digital Era 1 (3):351378.CrossRefGoogle Scholar
Fritz, Carole, Willis, Mark D., and Tosello, Gilles 2016 Reconstructing Paleolithic Cave Art: The Example of Marsoulas Cave (France). Journal of Archaeological Science: Reports. DOI: 10.1016/j.jasrep.2016.05.012, accessed July 30, 2017.Google Scholar
Fussell, Angela 1982 Terrestrial Photogrammetry in Archaeology. World Archaeology 14 (2):157172.CrossRefGoogle Scholar
Galeazzi, Fabrizio 2016 Towards the Definition of Best 3D Practices in Archaeology: Assessing 3D Documentation Techniques for Intra-Site Data Recording. Journal of Cultural Heritage 17:159169.CrossRefGoogle Scholar
Galeazzi, Fabrizio, Moyes, Holley, and Aldenderfer, Mark 2014 Defining Best 3D Practices in Archaeology Comparing Laser Scanning and Dense Stereo Matching Techniques for 3D Intrasite Data Recording. Advances in Archaeological Practice 2 (4):353365.CrossRefGoogle Scholar
Goldhahn, Joakim, and Sevara, Christopher 2011 Image-Based Modeling of the Present Past: Building 3D Models of Archaeological Environments from Digital Photographs. Proceedings of the DMACH 2011: Digital Media and its Applications in Cultural Heritage, 13–15 March, 2011 Amman, Jordan:251–266.Google Scholar
Green, Susie, Bevan, Andrew, and Shapland, Michael 2014 A Comparative Assessment of Structure from Motion Methods for Archaeological Research. Journal of Archaeological Science 46: 173181.CrossRefGoogle Scholar
Hameeuw, Hendrik, Devillers, Anne, and Claes, Wouter 2016 Relighting Egyptian Rock Art: Rapid, Accurate HD Imaging of Prehistoric Petroglyphs. Proceedings of the Proceedings” Young Researchers Overseas’ Day”(16.12. 2014):1–11.Google Scholar
Hamilton, Sue 2007 Rapa Nui Landscapes of Construction. Archaeology International 10: 4953.Google Scholar
Hamilton, Sue 2013 Rapa Nui (Easter Island)’s Stone Worlds. Archaeology International 16: 96109. DOI: http://doi.org/10.5334/ai.1613 CrossRefGoogle Scholar
Hamilton, Sue, Thomas, Mike Seager, and Whitehouse, Ruth 2011 Say It with Stone: Constructing with Stones on Easter Island. World Archaeology 43 (2):167190.CrossRefGoogle Scholar
Haukaas, Colleen, and Hodgetts, Lisa M. 2016 The Untapped Potential of Low-Cost Photogrammetry in Community-Based Archaeology: A Case Study from Banks Island, Arctic Canada. Journal of Community Archaeology & Heritage 3 (1):4056.CrossRefGoogle Scholar
Henderson, Jon, Pizarro, Oscar, , Matthew Johnson-Roberson, and Mahon, Ian 2013 Mapping Submerged Archaeological Sites Using Stereo-Vision Photogrammetry. International Journal of Nautical Archaeology 42 (2):243256.CrossRefGoogle Scholar
Heyerdahl, Thor, and Ferdon, Edwin N. 1961 Archaeology of Easter Island. Allen and Unwin, LondonGoogle Scholar
Hochstetter, Francisco Torres, Haoa, Sergio Rapu, Lipo, Carl P., and Hunt, Terry L. 2011 A Public Database of Archaeological Resources on Easter Island (Rapa Nui) Using Google Earth. Latin American Antiquity: 385397.CrossRefGoogle Scholar
Höll, Thomas, Holler, Gert, and Pinz, Axel 2014 A Novel High Accuracy 3D Scanning Device for Rock-Art Sites. The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences 40 (5):285.CrossRefGoogle Scholar
Howland, Matthew D., Kuester, Falko, and Levy, Thomas E. 2014a Photogrammetry in the Field: Documenting, Recording, and Presenting Archaeology. Mediterranean Archaeology and Archaeometry 14 (4): 187191.Google Scholar
Howland, Matthew D., Kuester, Falko, and Levy, Thomas E. 2014b Structure from Motion: Twenty-First Century Field Recording with 3D Technology. Near Eastern Archaeology (NEA) 77 (3):187191.CrossRefGoogle Scholar
Howland, Matthew D., Liss, Brady, Najjar, Mohammad, and Levy, Thomas E. 2015 GIS-Based Mapping of Archaeological Sites with Low-Altitude Aerial Photography and Structure from Motion: A Case Study from Southern Jordan. Proceedings of the Digital Heritage, 2015 1:91–94.Google Scholar
Hunt, Terry L., and Lipo, Carl P. 2006 Late Colonization of Easter Island. Science 311 (5767):16031606.CrossRefGoogle ScholarPubMed
Hunt, Terry L., and Lipo, Carl P. 2011 The Statues That Walked: Unraveling the Mystery of Easter Island. Simon and Schuster, New York.Google Scholar
Jamhawi, Monther, Alshawabkeh, Yahya, Freewan, Ahmed, and Al-Gharaibeh, Rami 2016 Combined Laser Scanner and Dense Stereo Matching Techniques for 3D Modelling of Heritage Sites: Dar Es-Saraya Museum. Mediterranean Archaeology and Archaeometry 16 (3):185192.Google Scholar
Janik, Liliana, Roughley, Corinne, and Szcz, Katarzyna 2007 Skiing on the Rocks: The Experiential Art of Fisher-Gatherer-Hunters in Prehistoric Northern Russia. Cambridge Archaeological Journal 17 (03):297310.CrossRefGoogle Scholar
Johansson, Sven-Olav, and Magnusson, Jan 2004 Developing New Techniques for 3D Documentation of Rock Art. Proceedings of the The Valcamonica Symposiums. 2001 and 2002: 125–133.Google Scholar
Johnson-Roberson, Matthew, Bryson, Mitch, Friedman, Ariell, Pizarro, Oscar, Troni, Giancarlo, Ozog, Paul, and Henderson, Jon C. 2016 High-Resolution Underwater Robotic Vision-Based Mapping and Three-Dimensional Reconstruction for Archaeology. Journal of Field Robotics. DOI: 10.1002/rob.21658, accessed July 30, 2017.Google Scholar
Kahn, Robert L. 1968 Georg Forsters Werke Samtliche Schriften, Tagebucher, Briefe. A Voyage Round the World. Akademie-Verlag, Berlin.Google Scholar
Keinan, Adi 2014 MicroPasts. An Experiment in Crowdsourcing and Crowdfunding Archaeology. British Archaeology 139:5055.Google Scholar
Kersten, Thomas P., and Lindstaedt, Maren 2012 Image-Based Low-Cost Systems for Automatic 3D Recording and Modelling of Archaeological Finds and Objects. Proceedings of the Euro-Mediterranean Conference:1–10.CrossRefGoogle Scholar
Koenig, Charles W., Willis, Mark D., and Black, Stephen L. 2017 Beyond the Square Hole: Application of Structure from Motion Photogrammetry to Archaeological Excavation. Advances in Archaeological Practice 5 (1):5470.CrossRefGoogle Scholar
Koutsoudis, Anestis, and Chamzas, Christodoulos 2011 3D Pottery Shape Matching Using Depth Map Images. Journal of Cultural Heritage 12 (2):128133.CrossRefGoogle Scholar
Koutsoudis, Anestis, Vidmar, Blaž, and Arnaoutoglou, Fotis 2013 Performance Evaluation of a Multi-Image 3D Reconstruction Software on a Low-Feature Artefact. Journal of Archaeological Science 40 (12):44504456.CrossRefGoogle Scholar
Lee, Georgia 1992 Rock Art of Easter Island: Symbols of Power, Prayers to the Gods 17. Cotsen Institute of Archaeology, University of California, Los Angeles.Google Scholar
Lerma, José L., Navarro, Santiago, Seguí, Ana E., and Cabrelles, Miriam 2014 Range-Based versus Automated Markerless Image-Based Techniques for Rock Art Documentation. The Photogrammetric Record 29 (145):3048.CrossRefGoogle Scholar
Lerma, José Luis, and Muir, Colin 2014 Evaluating the 3D Documentation of an Early Christian Upright Stone with Carvings from Scotland with Multiples Images. Journal of Archaeological Science 46:311318.CrossRefGoogle Scholar
Levy, Thomas E., Vincent, Matthew L., Howland, Matthew, Kuester, Falko, and Smith, Neil G. 2014 The Art of Implementing SFM for Reconstruction of Archaeological Sites in Greece: Preliminary Applications of Cyber-Archaeological Recording at Corinth. Mediterranean Archaeology and Archaeometry 14 (4): 125133.Google Scholar
López-Romero, Elías 2014 “Out of the Box”: Exploring the 3D Modelling Potential of Ancient Image Archives. Virtual Archaeology Review. 5 (10):107116.CrossRefGoogle Scholar
López-Romero, Elías, Mañana-Borrazás, Patricia, Daire, M-Y, and Güimil-Fariña, Alejandro 2014 The eSCOPES Project: Preservation by Record and Monitoring at-risk Coastal Archaeological Sites on the European Atlantic Façade. Antiquity 88 (339).Google Scholar
Lowe, David G 2004 Distinctive Image Features from Scale-Invariant Keypoints. International Journal of Computer Vision 60 (2):91110.CrossRefGoogle Scholar
McCarthy, John 2014 Multi-Image Photogrammetry as a practical Tool for Cultural Heritage Survey and Community Engagement. Journal of Archaeological Science 43:175185.CrossRefGoogle Scholar
McCarthy, John, and Benjamin, Jonathan 2014 Multi-Image Photogrammetry for Underwater Archaeological Site Recording: An Accessible, Diver-Based Approach. Journal of Maritime Archaeology 9 (1):95114.CrossRefGoogle Scholar
Magnani, Matthew, and Schroder, Whittaker 2015 New Approaches to Modeling the Volume of Earthen Archaeological Features: A Case-Study from the Hopewell Culture Mounds. Journal of Archaeological Science 64:1221.CrossRefGoogle Scholar
Mancini, Francesco, Dubbini, Marco, Gattelli, Mario, Stecchi, Francesco, Fabbri, Stefano, and Gabbianelli, Giovanni 2013 Using Unmanned Aerial Vehicles (UAV) for High-Resolution Reconstruction of Topography: The Structure from Motion Approach on Coastal Environments. Remote Sensing 5 (12):68806898.CrossRefGoogle Scholar
Means, Bernard K. 2015 Promoting a More Interactive Public Archaeology Archaeological Visualization and Reflexivity through Virtual Artifact Curation. Advances in Archaeological Practice 3 (3):235248.CrossRefGoogle Scholar
Means, Bernard K., McCuistion, Ashley, and Bowles, Courtney 2013 Virtual Artifact Curation of the Historical Past and the NextEngine Desktop 3D Scanner. Technical Briefs in Historical Archaeology 6:112.Google Scholar
Meijer, Ellen 2015 Structure from Motion as Documentation Technique for Rock Art. Adoranten:66.Google Scholar
Meline, Arnaud, Triboulet, Jean, and Jouvencel, Bruno 2012 Comparative Study of Two 3D Reconstruction Methods for Underwater Archaeology. Proceedings of the Intelligent Robots and Systems (IROS), 2012 IEEE/RSJ International Conference on Intelligent Robots and Systems:740–745.CrossRefGoogle Scholar
Mertes, J., Thomsen, T., and Gulley, J. 2014 Evaluation of Structure from Motion Software to Create 3D Models of Late Nineteenth Century Great Lakes Shipwrecks Using Archived Diver-Acquired Video Surveys. Journal of Maritime Archaeology 9 (2):173189.CrossRefGoogle Scholar
Métraux, Alfred 1971 Ethnology of Easter Island. Bishop Museum Press, Honolulu, Hawaii.Google Scholar
Monterroso-Checa, Antonio, and Gasparini, Massimo 2016 Aerial Archaeology and Photogrammetric Surveys along the Roman Way from Corduba to Emerita. Digitalizing the Ager Cordubensis and the Ager Mellariensis. SCIRES-IT-SCIentific RESearch and Information Technology 6 (2):175188.Google Scholar
Morales, Juan I., Lorenzo, Carlos, and Vergès, Josep M. 2015 Measuring Retouch Intensity in Lithic Tools: A New Proposal Using 3D Scan Data. Journal of Archaeological Method and Theory 22 (2):543558.CrossRefGoogle Scholar
Niven, Laura, Steele, Teresa E., Finke, Hannes, Gernat, Tim, and Hublin, Jean-Jacques 2009 Virtual Skeletons: Using a Structured Light Scanner to Create a 3D Faunal Comparative Collection. Journal of Archaeological Science 36 (9):20182023.CrossRefGoogle Scholar
Ogleby, Cliff, and Rivett, Leo J. 1985 Handbook of Heritage Photogrammetry 4. Australian Government Publishing Service, Canberra.Google Scholar
Palmer, John Linton 1869 Observations on the Inhabitants and the Antiquities of Easter Island. The Journal of the Ethnological Society of London (1869–1870) 1 (4):371377.CrossRefGoogle Scholar
Palmer, John Linton 1870 A Visit to Easter Island, or Rapa Nui, in 1868. The Journal of the Royal Geographical Society of London 40:167181.CrossRefGoogle Scholar
Papadaki, A. I., Agrafiotis, P., Georgopoulos, A., and Prignitz, S. 2015 Accurate 3D Scanning of Damaged Ancient Greek Inscriptions for Revealing Weathered Letters. The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences 40 (5):237.CrossRefGoogle Scholar
Plets, Gertjan, Gheyle, Wouter, Verhoeven, Geert, De Reu, Jeroen, Bourgeois, Jean, Verhegge, Jeroen, and Stichelbaut, Birger 2012 Three-Dimensional Recording of Archaeological Remains in the Altai Mountains. Antiquity 86 (333):884897.CrossRefGoogle Scholar
Poier, Georg, Seidl, Markus, Zeppelzauer, Matthias, Reinbacher, Christian, Schaich, Martin, Bellandi, Giovanna, Marretta, Alberto, and Bischof, Horst 2016 PetroSurf3D-A High-Resolution 3D Dataset of Rock Art for Surface Segmentation. arXiv preprint arXiv:1610.01944.Google Scholar
Pollefeys, Marc, Van Gool, Luc, Vergauwen, Maarten, Cornelis, Kurt, Verbiest, Frank, and Tops, Jan 2003a 3D Capture of Archaeology and Architecture with a Hand-Held Camera. International Archives of Photogrammetry Remote Sensing and Spatial Information Sciences 34 (5/W12):262267.Google Scholar
Pollefeys, Marc, Van Gool, Luc, Vergauwen, Maarten, Cornelis, Kurt, Verbiest, Frank, and Tops, Jan 2003b 3D Recording for Archaeological Fieldwork. IEEE Computer Graphics and Applications 23 (3):2027.CrossRefGoogle Scholar
Ritsos, Panagiotis D., Wilson, Andrew T., Miles, Helen C., Williams, Lee F., Tiddeman, Bernard, Labrosse, Frédéric, Griffiths, Seren, Edwards, Ben, Möller, Katharina, and Karl, Raimund 2014 Community-Driven Generation of 3D and Augmented Web Content for Archaeology. Proceedings of the Proceedings of the Eurographics Workshop on Graphics and Cultural Heritage (GCH), Reinhard Klein and Pedro Santos (Eds.). Eurographics Association:25–28.Google Scholar
Roosevelt, Christopher H., Cobb, Peter, Moss, Emanuel, Olson, Brandon R. and Ünlüsoy, Sinan 2015 Excavation Is Destruction Digitization: Advances in Archaeological Practice. Journal of Field Archaeology 40 (3):325346.CrossRefGoogle Scholar
Routledge, Katherine 1998 The Mystery of Easter Island. Adventures Unlimited, Kempton, Illinois.Google Scholar
Routledge, Scoresby 1917 Easter Island. The Geographical Journal 49 (5):321340.CrossRefGoogle Scholar
Ruiz-Tagle, Eduardo 2005 Easter Island: The First Three Expeditions. Rapanui Press, Rapa Nui.Google Scholar
Rüther, Heinz, Held, Christoph, Bhurtha, Roshan, Schroeder, Ralph, and Wessels, Stephen 2012 From Point Cloud to Textured Model, the Zamani Laser Scanning Pipeline in Heritage Documentation. South African Journal of Geomatics 1 (1):4459.Google Scholar
Schönberger, Johannes L., Fraundorfer, Friedrich, and Frahm, Jan Michael 2014 Structure-from-Motion for MAV Image Sequence Analysis with Photogrammetric Applications. The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences 40 (3):305.CrossRefGoogle Scholar
Seager Thomas, Mike 2014 Stone Use and Avoidance on Easter Island: Red Scoria from the Topknot Quarry at Puna Pau and Other Sources. Archaeology in Oceania 49 (2):95109.CrossRefGoogle Scholar
Sevara, Christopher 2013 Top Secret Topographies: Recovering Two And Three-Dimensional Archaeological Information from Historic Reconnaissance Datasets Using Image-Based Modelling Techniques. International Journal of Heritage in the Digital Era 2 (3):395418.CrossRefGoogle Scholar
Smith, Neil G., Passone, Luca, Al-Said, Said, Al-Farhan, Mohamed, and Levy, Thomas E. 2014 Drones in Archaeology: Integrated Data Capture, Processing, and Dissemination in the al-Ula Valley, Saudi Arabia. Near Eastern Archaeology (NEA) 77 (3):176181.CrossRefGoogle Scholar
Smith, Steve, Cutchin, Steve, Rockwood, Alyn, Saad, Adel, Smith, Neil G., and Levy, Thomas E. 2012 Demo Paper: Virtual and Immersive Experience Presentation of Cultural Heritage Sites. Proceedings of the Virtual Systems and Multimedia (VSMM), 2012 18th International Conference on Virtual Systems and Multimedia:645–648.CrossRefGoogle Scholar
Snavely, Noah, Seitz, Steven M., and Szeliski, Richard 2006 Photo Tourism: Exploring Photo Collections in 3D. Proceedings of the ACM Transactions on Graphics (TOG) 25:835846.CrossRefGoogle Scholar
Snyder, David B., Bahn, Paul, and Flenley, John 1994 Easter Island Earth Island. Thames and Hudson, London.Google Scholar
Stal, Cornelis, De Wulf, Alain, De Maeyer, Philippe, Goossens, Rudi, and Nuttens, Timothy 2012 Evaluation of the Accuracy of 3D Data Acquisition Techniques for the Documentation of Cultural Heritage. Proceedings of the 3rd International EARSeL workshop on the Advances in Remote Sensing for Archaeology and Cultural Heritage Management.Google Scholar
Stanbury, Peter, and Clegg, John 1990 A Field Guide to Aboriginal Rock Engravings with Special Reference to Those around Sydney. Sydney University Press, Sydney.Google Scholar
Thanaphatarapornchai, Montri 2012 Close-Range Photogrammetry for 3D Archaeological Documentation: Digital Human Remains. Proceedings of the Poster Presented at the 2nd Southeast Asian Bioarchaeology Congress, Khon Kaen, Thailand: 26–28.Google Scholar
Thomas, Hugh, and Kennedy, Melissa A. 2016 A New Methodology for Accurate Digital Planning of Archaeological Sites without the Aid of Surveying Equipment. Journal of Archaeological Science: Reports 10:887892.Google Scholar
Tomášková, Silvia 2015 Digital Technologies in Context: Prehistoric Engravings in the Northern Cape, South Africa. Digital Applications in Archaeology and Cultural Heritage 2 (2):222232.CrossRefGoogle Scholar
Tscharf, Alexander, Rumpler, Markus, Fraundorfer, Friedrich, Mayer, Gerhard, and Bischof, Horst 2015 On the Use of UAVs in Mining and Archaeology-Geo-Accurate 3D Reconstructions Using Various Platforms and Terrestrial Views. ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences 2 (1):15.CrossRefGoogle Scholar
Van Tilburg, Jo Anne, and Lee, Georgia 1987 Symbolic Stratigraphy: Rock Art and the Monolithic Statues of Easter Island. World Archaeology 19 (2):133149.CrossRefGoogle Scholar
Verhoeven, Geert 2011 Taking Computer Vision Aloft–Archaeological Three-Dimensional Reconstructions from Aerial Photographs with Photoscan. Archaeological Prospection 18 (1):6773.CrossRefGoogle Scholar
Verhoeven, Geert, Doneus, Michael, Briese, Ch, and Vermeulen, Frank 2012 Mapping by Matching: A Computer Vision-Based Approach to Fast and Accurate Georeferencing of Archaeological Aerial Photographs. Journal of Archaeological Science 39 (7):20602070.CrossRefGoogle Scholar
Verhoeven, Geert, Taelman, Devi, and Vermeulen, Frank 2012 Computer Vision-Based Orthophoto Mapping of Complex Archaeological Sites: The Ancient Quarry of Pitaranha (Portugal–Spain). Archaeometry 54 (6):11141129.CrossRefGoogle Scholar
Vilas-Estevez, Benito, Vázquez-Martínez, Alia, and Carrero-Pazos, Miguel 2016 Going Further:(Re) Discovering Rock Art Carvings. Handbook of Research on Emerging Technologies for Digital Preservation and Information Modeling:175.Google Scholar
Vincent, Matthew L, DeFanti, Tom, Schulze, Jurgen, Kuester, Falko, and Levy, Thomas 2013 Stereo Panorama Photography in Archaeology: Bringing the Past into the Present through CAVEcams and Immersive Virtual Environments. Proceedings of the Digital Heritage International Congress (DigitalHeritage), 2013 1:455–455.CrossRefGoogle Scholar
Wefers, Stefanie, Reich, Tobias, Tietz, Burkhard, and Boochs, Frank 2016 SIVT–Processing, Viewing, and Analysis of 3D Scans of the Porthole Slab and Slab B2 of Züschen I. Proceedings of the CAA2015. Keep the Revolution Going. Proceedings of the 43rd Annual Conference on Computer Applications and Quantitative Methods In Archaeology:1067–1080.Google Scholar
Weßling, Ronny, Maurer, Jakob, and Krenn-Leeb, Alexandra 2013 Structure from Motion for Systematic Single Surface Documentation of Archaeological Excavations. Proceedings of the Proceedings of the 18th International Conference on Cultural Heritage and New Technologies (CHNT 18). Vienna, Austria, 11th–13th November:1-13, http://www.chnt.at/wp-content/uploads/We%C3%9Fling_2014.pdf.Google Scholar
Wilhelmson, Helene, and Dell'Unto, Nicoló 2015 Virtual Taphonomy: A New Method Integrating Excavation and Postprocessing in an Archaeological Context. American Journal of Physical Anthropology 157 (2):305321.CrossRefGoogle Scholar
Williams, Ken, and Twohig, Elizabeth Shee 2015 From Sketchbook to Structure from Motion: Recording Prehistoric Carvings in Ireland. Digital Applications in Archaeology and Cultural Heritage 2 (2):120131.CrossRefGoogle Scholar
Yamafune, Kotaro 2016 Using Computer Vision Photogrammetry (Agisoft PhotoScan) to Record and Analyze Underwater Shipwreck Sites, PhD Dissertation, Department of Anthropology, Texas A&M University.Google Scholar
Zeppelzauer, Matthias, Poier, Georg, Markus Seidl, Christian Reinbacher, Christian Breiteneder, Horst Bischof, and Samuel Schulter 2015 Interactive Segmentation of Rock-Art in High-Resolution 3D Reconstructions. Proceedings of the Digital Heritage, 2015 2: 3744.Google Scholar
Zeppelzauer, Matthias, Poier, Georg, Seidl, Markus, Reinbacher, Christian, Schulter, Samuel, Breiteneder, Christian and Bischof, Horst 2016 Interactive 3D Segmentation of Rock-Art by Enhanced Depth Maps and Gradient Preserving Regularization. Journal on Computing and Cultural Heritage (JOCCH) 9 (4):19.Google Scholar
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