Relevant bibliographies by topics / Digital archaeological data

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Digital archaeological data'

Author: Grafiati
Published: 4 June 2025
Last updated: 23 June 2025

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Journal articles on the topic "Digital archaeological data"

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Previtali, Mattia, and Riccardo Valente. "Archaeological documentation and data sharing: digital surveying and open data approach applied to archaeological fieldworks." Virtual Archaeology Review 10, no. 20 (2019): 17. http://dx.doi.org/10.4995/var.2019.10377.

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<p>The open data paradigm is changing the research approach in many fields such as remote sensing and the social sciences. This is supported by governmental decisions and policies that are boosting the open data wave, and in this context archaeology is also affected by this new trend. In many countries, archaeological data are still protected or only limited access is allowed. However, the strong political and economic support for the publication of government data as open data will change the accessibility and disciplinary expertise in the archaeological field too. In order to maximize the impact of data, their technical openness is of primary importance. Indeed, since a spreadsheet is more usable than a PDF of a table, the availability of digital archaeological data, which is structured using standardised approaches, is of primary importance for the real usability of published data. In this context, the main aim of this paper is to present a workflow for archaeological data sharing as open data with a large level of technical usability and interoperability. Primary data is mainly acquired through the use of digital techniques (e.g. digital cameras and terrestrial laser scanning). The processing of this raw data is performed with commercial software for scan registration and image processing, allowing for a simple and semi-automated workflow. Outputs obtained from this step are then processed in modelling and drawing environments to generate digital models, both 2D and 3D. These crude geometrical data are then enriched with further information to generate a Geographic Information System (GIS) which is finally published as open data using Open Geospatial Consortium (OGC) standards to maximise interoperability.</p><p><strong>Highlights:</strong></p><ul><li><p>Open data will change the accessibility and disciplinary expertise in the archaeological field.</p></li><li><p>The main aim of this paper is to present a workflow for archaeological data sharing as open data with a large level of interoperability.</p></li><li><p>Digital acquisition techniques are used to document archaeological excavations and a Geographic Information System (GIS) is generated that is published as open data.</p></li></ul>
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Huggett, Jeremy. "Data Legacies, Epistemic Anxieties, and Digital Imaginaries in Archaeology." Digital 2, no. 2 (2022): 267–95. http://dx.doi.org/10.3390/digital2020016.

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Archaeology operates in an increasingly data-mediated world in which data drive knowledge and actions about people and things. Famously, data has been characterized as “the new oil”, underpinning modern economies and at the root of many technological transformations in society at large, even assuming a near-religious power over thought and action. As the call for this Special Issue recognizes, archaeological research is socially and historically situated and consequently influenced by these same broader developments. In archaeology, as in the wider world, data is the foundation for knowledge, but its capacity is rarely reflected upon. This paper offers just such a reflection: a meditation on the nature of archaeological digital data and the challenges for its (re)use. It asks what we understand by data: its etymology and comprehension, its exceptionality and mutability, its constructs and infrastructures, and its origins and consequences. The concept of the archaeological data imaginary is introduced to better understand approaches to the collection and use of archaeological data, and a case study examines how knowledge is mediated and remediated through the data embedded in grey literature. Appreciating the volatility and unpredictability of digital data is key in understanding its potential for use and reuse in the creation of archaeological knowledge.
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Hagmann, Dominik. "Überlegungen zur Nutzung von PHAIDRA als Repositorium für digitale archäologische Daten." Mitteilungen der Vereinigung Österreichischer Bibliothekarinnen und Bibliothekare 71, no. 1 (2018): 53–69. https://doi.org/10.31263/voebm.v71i1.1974.

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Archaeological data are characterized by a variety of data types and file formats that store different kinds of information respectively contents. This spectrum ranges from texts and tables to object photographs, vector graphics and the increasingly popular 3D models for example. This diversity of archaeological data is due to the use of different methods and various approaches in archaeology. Depending on the individual project, numerous digitized and heterogeneous datasets are added as well. Among others, one of the main challenges in long-term data archiving and data dissemination in archaeology is to handle this inhomogeneous information within a repository. In this article it will be shown that the system PHAIDRA at the University of Vienna enables researchers to make complex archaeological datasets available in a sustainable way.
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Petrosyan, Artur, Hayk Azizbekyan, Boris Gasparyan, Roberto Dan, Arsen Bobokhyan, and Mariam Amiryan. "Foregrounding Daily Data Collection on Archaeological Fieldwork." Advances in Archaeological Practice 9, no. 4 (2021): 402–14. http://dx.doi.org/10.1017/aap.2021.30.

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OverviewDaily data collection during archaeological fieldwork forms the basis for later interpretation and analysis. Across the world, we observe a wide variety of digital data collection methods and tools employed during fieldwork. Here, we detail the daily practices at four recent survey and excavation projects in the South Caucasian country of Armenia. As archaeology continues to become ever more digital, it is useful to consider these day-to-day recording processes at a typical field project. We provide details on both the types of data collected and the ways they are collected so as to foreground these topics. Finally, we reflect on how our work is currently impacted by digital changes and how it may continue to change in the future.
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McKeague, Peter, Veer Rein van't, Isto Huvila, et al. "Mapping Our Heritage: Towards a Sustainable Future for Digital Spatial Information and Technologies in European Archaeological Heritage Management." Journal of Computer Applications in Archaeology 2, no. 1 (2019): 89–104. https://doi.org/10.5334/jcaa.23.

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The enormous increase in digital spatial information has led archaeologists all over Europe to rely ever more on digital data to prepare and carry out archaeological research, both in academic and heritage man- agement contexts. Spatial information is increasingly used to guide heritage management policies, from urban design to rural planning and tourism. Furthermore, spatial information is more and more employed to involve the general public, using digital technologies in museums and other places of archaeological inter- est, but also to involve amateur archaeologists in data collection programmes using crowdsourcing. With this proliferation of data and data use, issues of sustainability of digital data repositories, accessibility and reliability of data, standardization of data formats and management of property rights are currently widely debated inside and outside archaeology. However, they have not yet led to generally accepted practices of data management across or even within European countries. In this paper, we sketch the state-of-the-art of archaeological spatial data management, identify the major problem areas and reflect on potential improvements. We conclude that technical solutions are available, but will need a long-term transnational strategy in order fulfill the promise of open and sustainable spatial archaeological data for all user groups involved.
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McKeague, Peter, Veer Rein van't, Isto Huvila, et al. "Mapping Our Heritage: Towards a Sustainable Future for Digital Spatial Information and Technologies in European Archaeological Heritage Management." Journal of Computer Applications in Archaeology 2, no. 1 (2019): 89–104. https://doi.org/10.5334/jcaa.23/.

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The enormous increase in digital spatial information has led archaeologists all over Europe to rely ever more on digital data to prepare and carry out archaeological research, both in academic and heritage man- agement contexts. Spatial information is increasingly used to guide heritage management policies, from urban design to rural planning and tourism. Furthermore, spatial information is more and more employed to involve the general public, using digital technologies in museums and other places of archaeological inter- est, but also to involve amateur archaeologists in data collection programmes using crowdsourcing. With this proliferation of data and data use, issues of sustainability of digital data repositories, accessibility and reliability of data, standardization of data formats and management of property rights are currently widely debated inside and outside archaeology. However, they have not yet led to generally accepted practices of data management across or even within European countries. In this paper, we sketch the state-of-the-art of archaeological spatial data management, identify the major problem areas and reflect on potential improvements. We conclude that technical solutions are available, but will need a long-term transnational strategy in order fulfill the promise of open and sustainable spatial archaeological data for all user groups involved.
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Bornik, Alexander, and Wolfgang Neubauer. "3D Visualization Techniques for Analysis and Archaeological Interpretation of GPR Data." Remote Sensing 14, no. 7 (2022): 1709. http://dx.doi.org/10.3390/rs14071709.

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The non-invasive detection and digital documentation of buried archaeological heritage by means of geophysical prospection is increasingly gaining importance in modern field archaeology and archaeological heritage management. It frequently provides the detailed information required for heritage protection or targeted further archaeological research. High-resolution magnetometry and ground-penetrating radar (GPR) became invaluable tools for the efficient and comprehensive non-invasive exploration of complete archaeological sites and archaeological landscapes. The analysis and detailed archaeological interpretation of the resulting large 2D and 3D datasets, and related data from aerial archaeology or airborne remote sensing, etc., is a time-consuming and complex process, which requires the integration of all data at hand, respective three-dimensional imagination, and a broad understanding of the archaeological problem; therefore, informative 3D visualizations supporting the exploration of complex 3D datasets and supporting the interpretative process are in great demand. This paper presents a novel integrated 3D GPR interpretation approach, centered around the flexible 3D visualization of heterogeneous data, which supports conjoint visualization of scenes composed of GPR volumes, 2D prospection imagery, and 3D interpretative models. We found that the flexible visual combination of the original 3D GPR datasets and images derived from the data applying post-processing techniques inspired by medical image analysis and seismic data processing contribute to the perceptibility of archaeologically relevant features and their respective context within a stratified volume. Moreover, such visualizations support the interpreting archaeologists in their development of a deeper understanding of the complex datasets as a starting point for and throughout the implemented interactive interpretative process.
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Kansa, Sarah Whitcher, and Eric C. Kansa. "Data Beyond the Archive in Digital Archaeology." Advances in Archaeological Practice 6, no. 2 (2018): 89–92. http://dx.doi.org/10.1017/aap.2018.7.

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ABSTRACTThis special section stems from discussions that took place in a forum at the Society for American Archaeology's annual conference in 2017. The forum, Beyond Data Management: A Conversation about “Digital Data Realities”, addressed challenges in fostering greater reuse of the digital archaeological data now curated in repositories. Forum discussants considered digital archaeology beyond the status quo of “data management” to better situate the sharing and reuse of data in archaeological practice. The five papers for this special section address key themes that emerged from these discussions, including: challenges in broadening data literacy by making instructional uses of data; strategies to make data more visible, better cited, and more integral to peer-review processes; and pathways to create higher-quality data better suited for reuse. These papers highlight how research data management needs to move beyond mere “check-box” compliance for granting requirements. The problems and proposed solutions articulated by these papers help communicate good practices that can jumpstart a virtuous cycle of better data creation leading to higher impact reuses of data.
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Freeman, Mark Antony, and Xiaohua Zhu. "A tentative evaluation framework for digital archaeological data sites." Proceedings of the Association for Information Science and Technology 54, no. 1 (2017): 675–76. http://dx.doi.org/10.1002/pra2.2017.14505401112.

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Herrmann, Jason T. "Special Issue on Digital Domains." Advances in Archaeological Practice 2, no. 3 (2014): 145–46. http://dx.doi.org/10.7183/2326-3768.2.3.145.

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More and more archaeologists who once relied on shovels and surveys now regularly collect data with digital sensors and use computer-based management systems to carry out complex analyses. Geographic information systems (GIS) and geographic information science (GISc), satellite remote sensing, aerial and close-range photography, terrestrial and aerial Light Detection and Ranging (LiDAR), near-surface geophysics, and a wide array of visualization schemes designed to integrate and display data from multiple platforms are now integral to every stage of archaeological investigation, interpretation, and reporting. Even though these methods are an increasing part of archaeological research worldwide, there have been few conferences, meetings, or workshops dedicated to sharing methods and applications in digital archaeology in North America or even in the Western Hemisphere, with the exception of a few special sessions in regional or general archaeological conferences. This deficit is particularly striking in comparison with the situation in Europe, where several societies dedicated to archaeological geomatics regularly hold both continental and regional meetings.
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Dissertations / Theses on the topic "Digital archaeological data"

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Ravindranathan, Unnikrishnan. "Prototyping Digital Libraries Handling Heterogeneous Data Sources - An ETANA-DL Case Study." Thesis, Virginia Tech, 2004. http://hdl.handle.net/10919/9890.

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Information systems used in archaeological research have several needs that can be summarized as follows: interoperability among diverse, heterogeneous systems, making information available without significant delay, providing a sustainable approach to long-term preservation of data, and providing a suite of services to users of the system. In this thesis, we describe how digital library techniques can be employed to provide solutions to these problems and describe our experiences in creating a prototype for ETANA-DL. ETANA-DL is a model-based, componentized, extensible, archaeological Digital Library that manages complex information sources using the client-server paradigm of the Open Archives Initiative Protocol for Metadata Harvesting (OAI-PMH). We have designed and developed the prototype system with the following main goals: 1) to achieve information sharing between different heterogeneous archaeological systems, 2) to make primary archaeological data rapidly available to users, 3) to provide useful services to users of the DL, 4) to elicit requirements that users of the system will have beyond the services that it supports, and 5) to provide a sustainable solution to long-term preservation of valuable archaeological data. Consequently, we describe our approach to handling heterogeneous archaeological information from disparate sources; suggest an architecture for ETANA-DL, to be validated through prototyping; and show that given a pool of components that implement common DL services, a prototype DL can be rapidly created that supports several useful services over integrated data. Further, and most fundamentally, we note that understanding complex information systems is a difficult task. Finally, therefore, we describe our efforts to model complex archaeological information systems using the 5S framework, and show how we have used the resulting partial models to implement ETANA-DL with cross-collection searching and browsing capabilities.<br>Master of Science
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Kastanis, Lazaros. "Authenticity in digital archaeological reconstructions: A workflow pipeline and data classification system to inform and validate the digital reconstruction process." Thesis, Queensland University of Technology, 2019. https://eprints.qut.edu.au/132652/1/Lazaros_Kastanis_Thesis.pdf.

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Virtual reality (VR) modelling is increasingly used to reconstruct lost structures in highly realistic detail. These technologies offer archaeologists the ability to objectively study reconstruction scenarios and alternative hypotheses without having to interact with extant remains. As the use of digital reconstructions increases, so does consensus that there are dangers inherent in creating highly realistic outputs that are based on limited information with an associated lack of transparency of process. This thesis presents a methodology and data classification system for the digital reconstruction process and premises that the certainty of data employed in digital reconstructions is core to reconstruction authenticity.
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Bennett, Rebecca. "Archaeological remote sensing : visualisation and analysis of grass-dominated environments using airborne laser scanning and digital spectral data." Thesis, Bournemouth University, 2011. http://eprints.bournemouth.ac.uk/20459/.

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The use of airborne remote sensing data for archaeological prospection is not a novel concept, but it is one that has been brought to the forefront of current work in the discipline of landscape archaeology by the increasing availability and application of airborne laser scanning data (ALS). It is considered that ALS, coupled with imaging of the non-visible wavelengths using digital spectral sensors has the potential to revolutionise the field of archaeological remote sensing, overcoming some of the issues identified with the most common current technique of oblique aerial photography. However, as with many methods borrowed from geographic or environmental sciences, archaeologists have yet to understand or utilise the full potential of these sensors for deriving archaeological feature information. This thesis presents the work undertaken between 2008-11 at Bournemouth University that aimed to assess the full information content of airborne laser scanned and digital spectral data systematically with respect to identifying archaeological remains in non-alluvial environments. A range of techniques were evaluated for two study areas on Salisbury Plain, Wiltshire (Everleigh and Upavon) to establish how the information from these sensors can best be extracted and utilised. For the Everleigh Study Area archive airborne data were analysed with respect to the existing transcription from archive aerial photographs recorded by English Heritage's National Mapping Programme. At Upavon, spectral and airborne laser scanned data were collected by the NERC Airborne Research and Survey Facility to the specifications of the project in conjunction with a series of ground-based measures designed to shed light on the contemporary environmental factors influencing feature detectability. Through the study of visual and semi-automatic methods for detection of archaeological features, this research has provided a quantitative and comparative assessment of airborne remote sensing data for archaeological prospection, the first time that this has been achieved in the UK. In addition the study has provided a proof of concept for the use of the remote sensing techniques trialled in temperate grassland environments, a novel application in a field previously dominated by examples from alluvial and Mediterranean landscapes. In comparison to the baseline record of the Wiltshire HER, ALS was shown to be the most effective technique, detecting 76% of all previously know features and 72% of all the total number of features recorded in the study. Combining the spectral data from both January and May raised this total to 83% recovery of all previously known features, illustrating the value of multi-sensor survey. It has also been possible to clarify the strengths and weaknesses of a wide range of visualisation techniques through detailed comparative analysis and to show that some techniques in particular local relief modelling (ALS) and single band mapping (digital spectral data) are more suited to the aims of archaeological prospection than others, including common techniques such as shaded relief modelling (ALS) and True Colour Composites (digital spectral data). In total the use of “non-standard” or previously underused visualisation techniques was shown to improve feature detection by up to 18% for a single sensor type. Investigation of multiple archive spectral acquisitions highlighted seasonal differences in detectability of features that had not been previously observed in these data, with the January spectral data allowing the detection of 7% more features than the May acquisition. A clearer picture of spectral sensitivity of archaeological features was also gained for this environment with the best performing spectral band lying in the NIR for both datasets (706-717nm) and allowing detection c.68% of all the features visible across all the wavelengths. Finally, significant progress has been made in the testing of methods for combining data from different airborne sensors and analysing airborne data with respect to ground observations, showing that Brovey sharpening can be used to combine ALS and spectral data with up to 87% recovery of the features predicted by transcription from the contributing source data. This thesis concludes that the airborne remote sensing techniques studied have quantifiable benefit for detection of archaeological features at a landscape scale especially when used in conjunction with one another. The caveat to this is that appropriate use of the sensors from deployment, to processing, analysis and interpretation of features must be underpinned by a detailed understanding of how and why archaeological features might be represented in the data collected. This research goes some way towards achieving this, especially for grass-dominated environments but it is only with repeated, comparative analyses of these airborne data in conjunction with environmental observations that archaeologists will be able to advance knowledge in this field and thus put airborne remote sensing data to most effective use.
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Winbäck, Ulrika. "Det digitala språnget : Om arkeologins digitalisering." Thesis, Uppsala universitet, Arkeologi, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-455269.

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Karatas, Tugce. "Digital Data Curation Through Semantic Encoding: An operational proposal for the journey of archaeological data." Doctoral thesis, 2022. http://hdl.handle.net/2318/1876538.

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Digital curation in cultural heritage organisations has become more and more established as empirical research for tools, techniques, skills, and standards for making curators able to manage the related digital data. It supports specific applications in diverse contexts of cultural heritage management. This thesis addresses the archaeological domain, a particular challenge since projects span from the planning of the excavations to the analysis of the findings, their interpretation, and the display of the results in a final exhibition. Further, in archaeology, digital curation must account for the relationship between physical materials and their digital twins. Our approach formulates a comprehensive definition of digital curation for the archaeological domain and devises a unified model based on the semantic organisation of the data. The methodology that is employed in this study is to i) abstract a general model for digital curation from the analysis of cultural heritage domains with a particular focus on archaeology ii) validate the model on some case studies in the archaeological field, and iii) apply the model to an archaeological project, with a preliminary evaluation of the approach and the suggestions of about the merge of the semantic encoding of archaeological data with a transdisciplinary approach.
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Schmidt, Armin R. "Remote Sensing and Geophysical Prospection." 2004. http://hdl.handle.net/10454/3859.

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No<br>In archaeological prospection, computer processing is essential for all stages of data manipulation. This article investigates the contributions which informatics has made in the past and looks at its potential for the future. It is shown how the workflow of satellite imagery, aerial photography and geophysical prospection can be broken down into measurements, acquisition, processing, visualisation and interpretation. Based on these categories, the advantages of digital data manipulations are explored with individual examples. It is shown that informatics can greatly assist with the final archaeological analysis of the measurements but that human experience and assessments are crucial for a meaningful interpretation.
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Books on the topic "Digital archaeological data"

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Parrinello, Sandro. Digital survey and documentation of the archaeological and architectural sites: UNESCO : world heritage list. Edifir edizioni Firenze, 2015.

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Cappellini, Vito, ed. Electronic Imaging & the Visual Arts. EVA 2015 Florence. Firenze University Press, 2015. http://dx.doi.org/10.36253/978-88-6655-759-3.

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Information Technologies of interest for Culture Heritage are presented: multimedia systems, data-bases, data protection, access to digital content, Virtual Galleries. Particular reference is reserved to digital images (Electronic Imaging &amp; the Visual Arts), regarding Cultural Institutions (Museums, Libraries, Palace – Monuments, Archaeological Sites). The International Conference includes the following Sessions: Strategic Issues; New Technologies &amp; Applications; New 2D-3D Technical Developments &amp; Applications; Virtual Galleries – Museums and Related Initiatives; Access to the Culture Information. Two Workshops regard: International Cooperation; Innovation and Enterprise.
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Cappellini, Vito, ed. Electronic Imaging & the Visual Arts. EVA 2014 Florence. Firenze University Press, 2014. http://dx.doi.org/10.36253/978-88-6655-573-5.

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Information Technologies of interest for Culture Heritage are presented: multimedia systems, data-bases, data protection, access to digital content, Virtual Galleries. Particular reference is reserved to digital images (Electronic Imaging &amp; the Visual Arts), regarding Cultural Institutions (Museums, Libraries, Palace - Monuments, Archaeological Sites). The International Conference includes the following Sessions: Strategic Issues; EC Projects and Related Networks &amp; Initiatives; 2D - 3D Technologies and Applications; Virtual Galleries - Museums and Related Initiatives; Access to the Culture Information. Three Workshops regard: International Cooperation; Innovation and Enterprise; e.Culture Cloud.
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Cappellini, Vito, and Enrico Del Re, eds. Electronic Imaging & the Visual Arts. EVA 2016 Florence. Firenze University Press, 2016. http://dx.doi.org/10.36253/978-88-6655-974-0.

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Information Technologies of interest for Culture Heritage are presented: multimedia systems, data-bases, data protection, access to digital content, Virtual Galleries. Particular reference is reserved to digital images (Electronic Imaging &amp; the Visual Arts), regarding Cultural Institutions (Museums, Libraries, Palace - Monuments, Archaeological Sites). The International Conference includes the following Sessions: Strategic Issues; New Science and Culture Developments &amp; Applications; New Technical Developments and Applications; Museums - Virtual Galleries and Related Initiatives; Access to the Culture Information. An International Forum on “Culture &amp; Technology” is enclosed. One Workshop regards: Innovation and Enterprise.
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Cappellini, Vito, ed. Electronic Imaging & the Visual Arts. EVA 2013 Florence. Firenze University Press, 2013. http://dx.doi.org/10.36253/978-88-6655-372-4.

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Important Information Technology topics are presented: multimedia systems, data-bases, protection of data, access to the content. Particular reference is reserved to digital images (2D, 3D) regarding Cultural Institutions (Museums, Libraries, Palace – Monuments, Archaeological Sites). The main parts of the Conference Proceedings regard: Strategic Issues, EC Projects and Related Networks &amp; Initiatives, International Forum on “Culture &amp; Technology”, 2D – 3D Technologies &amp; Applications, Virtual Galleries – Museums and Related Initiatives, Access to the Culture Information. Three Workshops are related to: International Cooperation, Innovation and Enterprise, Creative Industries and Cultural Tourism.
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Cappellini, Vito, ed. Electronic Imaging & the Visual Arts. EVA 2019 Florence. Firenze University Press, 2019. http://dx.doi.org/10.36253/978-88-6453-869-3.

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The Publication is following the yearly Editions of EVA FLORENCE. The State of Art is presented regarding the Application of Technologies (in particular of digital type) to Cultural Heritage. The more recent results of the Researches in the considered Area are presented. Information Technologies of interest for Culture Heritage are presented: multimedia systems, data-bases, data protection, access to digital content, Virtual Galleries. Particular reference is reserved to digital images (Electronic Imaging &amp; the Visual Arts), regarding Cultural Institutions (Museums, Libraries, Palace - Monuments, Archaeological Sites). The International Conference includes the following Sessions: Strategic Issues; New Science and Culture Developments &amp; Applications; New Technical Developments &amp; Applications; Cultural Activities – Real and Virtual Galleries and Related Initiatives, Access to the Culture Information. One Workshop regards Innovation and Enterprise. The more recent results of the Researches at national and international level are reported in the Area of Technologies and Culture Heritage, also with experimental demonstrations of developed Activities.
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Cappellini, Vito, ed. Electronic Imaging & the Visual Arts. EVA 2017 Florence. Firenze University Press, 2017. http://dx.doi.org/10.36253/978-88-6453-502-9.

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The Publication is following the yearly Editions of EVA FLORENCE. The State of Art is presented regarding the Application of Technologies (in particular of digital type) to Cultural Heritage. The more recent results of the Researches in the considered Area are presented. Information Technologies of interest for Culture Heritage are presented: multimedia systems, data-bases, data protection, access to digital content, Virtual Galleries. Particular reference is reserved to digital images (Electronic Imaging &amp; the Visual Arts), regarding Cultural Institutions (Museums, Libraries, Palace - Monuments, Archaeological Sites). The International Conference includes the following Sessions: Strategic Issues; New Sciences and Culture Developments and Applications; New Technical Developments &amp; Applications; Museums - Virtual Galleries and Related Initiatives; Art and Humanities Ecosystem &amp; Applications; Access to the Culture Information. Two Workshops regard: Innovation and Enterprise; the Cloud Systems connected to the Culture (eCulture Cloud) in the Smart Cities context. The more recent results of the Researches at national and international are reported in the Area of Technologies and Culture Heritage, also with experimental demonstrations of developed Activities.
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Cappellini, Vito, ed. Electronic Imaging & the Visual Arts. EVA 2018 Florence. Firenze University Press, 2018. http://dx.doi.org/10.36253/978-88-6453-707-8.

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The Publication is following the yearly Editions of EVA FLORENCE. The State of Art is presented regarding the Application of Technologies (in particular of digital type) to Cultural Heritage. The more recent results of the Researches in the considered Area are presented. Information Technologies of interest for Culture Heritage are presented: multimedia systems, data-bases, data protection, access to digital content, Virtual Galleries. Particular reference is reserved to digital images (Electronic Imaging &amp; the Visual Arts), regarding Cultural Institutions (Museums, Libraries, Palace - Monuments, Archaeological Sites). The International Conference includes the following Sessions: Strategic Issues; New Sciences and Culture Developments and Applications; New Technical Developments &amp; Applications; Museums - Virtual Galleries and Related Initiatives; Art and Humanities Ecosystem &amp; Applications; Access to the Culture Information. Two Workshops regard: Innovation and Enterprise; the Cloud Systems connected to the Culture (eCulture Cloud) in the Smart Cities context. The more recent results of the Researches at national and international are reported in the Area of Technologies and Culture Heritage, also with experimental demonstrations of developed Activities.
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HUVILA, Isto. Archaeology and Archaeological Information in the Digital Society. Taylor & Francis Group, 2018.

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HUVILA, Isto. Archaeology and Archaeological Information in the Digital Society. Taylor & Francis Group, 2018.

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Book chapters on the topic "Digital archaeological data"

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Nørskov, Vinnie, and Marie Hélène van de Ven. "16. Digital Data and Recontextualization: The Case of South Italian Pottery." In Shaping Archaeological Archives. Brepols Publishers, 2023. http://dx.doi.org/10.1484/m.arc-eb.5.133507.

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Bates, Lynsey A., Elizabeth A. Bollwerk, Jillian E. Galle, and Fraser D. Neiman. "Archaeological Data in the Cloud: Collaboration and Accessibility with the Digital Archaeological Archive of Comparative Slavery (DAACS)." In Anthropological Data in the Digital Age. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-24925-0_5.

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McManamon, Francis P. "Digital Archaeological Data: Ensuring Access, Use, and Preservation." In Encyclopedia of Global Archaeology. Springer New York, 2014. http://dx.doi.org/10.1007/978-1-4419-0465-2_1219.

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Schortman, Edward, Ellen E. Bell, Jenna Nolt, and Patricia Urban. "The Past Is Prologue: Preserving and Disseminating Archaeological Data Online." In Anthropological Data in the Digital Age. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-24925-0_9.

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Coralini, Antonella, Antonella Guidazzoli, Daniela Scagliarini Corlàita, and Elena Toffalori. "VISMAN-DHER Project: Integrated Fruition of Archaeological Data through a Scientific Virtual Model." In Digital Heritage. Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-642-16873-4_32.

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McManamon, Francis P. "Digital Archaeological Data: Ensuring Discovery, Access, Use, and Preservation." In Encyclopedia of Global Archaeology. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-30018-0_1219.

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McManamon, Francis P. "Digital Archaeological Data: Ensuring Discovery, Access, Use, and Preservation." In Encyclopedia of Global Archaeology. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-51726-1_1219-2.

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Opgenhaffen, Loes, Caroline Jeffra, and Jill Hilditch. "Balancing Data Storage and User Functionality: The 3D and Archaeological Data Strategy of the Tracing the Potter’s Wheel Knowledge Hub." In The 3 Dimensions of Digitalised Archaeology. Springer International Publishing, 2024. http://dx.doi.org/10.1007/978-3-031-53032-6_8.

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AbstractThe Tracing the Potter’s Wheel (TPW) project is designed to identify and assess the appearance of the potter’s wheel as a technological innovation within the Bronze Age Aegean through the integration of experimental, analytical and digital archaeological approaches. A major output of the project is a technologically-focused archive that collates, presents and enhances research data about forming technology for archaeological and experimental ceramics. Another important project aim is to untangle relational and contextually-rich data storage for 3D models, with a particular focus on both metadata and paradata. Moreover, by disentangling the 3D models and treating them as an integrated part of the archive rather than a separately presented class, the project’s active, multivocal knowledge base explicitly integrates the often-separated complementary perspectives on archaeological datasets, dubbed the TPW Knowledge Hub. To reach these divergent yet intricate objectives, TPW introduces the approach of designerly thinking into digital archaeological practice for the design of a user-focused interface to share information and knowledge with peers and the general public. Ultimately, the TPW archive serves as a dynamic learning tool uniting archaeological data storage with additional open-access publications and resources.
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Cowley, David C. "What Do the Patterns Mean? Archaeological Distributions and Bias in Survey Data." In Digital Methods and Remote Sensing in Archaeology. Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-40658-9_7.

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Govindraj, Shraddha, Pranita Ranade, and Tanmoy Goswami. "Proposal of an ARVR-Enabled Digital Archive: Preserving Archaeological Data Through Emerging Technologies." In Design in the Era of Industry 4.0, Volume 1. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-0293-4_68.

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Conference papers on the topic "Digital archaeological data"

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Birsak, Michael, Przemyslaw Musialski, Murat Arikan, and Michael Wimmer. "Seamless texturing of archaeological data." In 2013 Digital Heritage International Congress (DigitalHeritage). IEEE, 2013. http://dx.doi.org/10.1109/digitalheritage.2013.6743749.

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Smith, Neil G., Kyle Knabb, Connor DeFanti, et al. "ArtifactVis2: Managing real-time archaeological data in immersive 3D environments." In 2013 Digital Heritage International Congress (DigitalHeritage). IEEE, 2013. http://dx.doi.org/10.1109/digitalheritage.2013.6743761.

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Torrejón Valdelomar, Juan, Mario Wallner, Immo Trinks, et al. "BIG DATA IN LANDSCAPE ARCHAEOLOGICAL PROSPECTION." In ARQUEOLÓGICA 2.0 - 8th International Congress on Archaeology, Computer Graphics, Cultural Heritage and Innovation. Universitat Politècnica València, 2016. http://dx.doi.org/10.4995/arqueologica8.2016.4200.

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While traditionally archaeological research has mainly been focused on individual cultural heritage monuments or distinct archaeological sites, the Austrian based Ludwig Boltzmann Institute for Archaeological Prospection and Virtual Archaeology goes beyond the limitations of discrete sites in order to understand their archaeological context. This is achieved by investigating the space in-between the sites, studying entire archaeological landscapes from the level of individual postholes to the mapping of numerous square kilometres. This large-scale, high-resolution, multi-method prospection approach leads to enormous digital datasets counting many terabytes of data that until recently were technically not manageable. Novel programs and methods of data management had to be developed for data acquisition, processing and archaeological interpretation, in order to permit the extraction of the desired information from the very big amount of data. The analysis of the generated datasets is conducted with the help of semi-automatic algorithms within complex three-, or even four-dimensional geographical information systems. The outcome of landscape archaeological prospection surveys is visually communicated to the scientific community as well as to the general public and stakeholders. In many cases, a visualization of the scientific result and archaeological interpretations can be a powerful and suitable tool to illustrate and communicate even complex contexts to a wide audience. This paper briefly presents the great potential offered by a combination of large-scale non-invasive archaeological prospection methods and standardized workflows for the integration of big data, its interpretation and visualization. The proposed approach provides a context for buried archaeology across entire archaeological landscapes, changing our understanding of known monuments. We address the overcome and remaining challenges with the help of examples taken from outstanding landscape archaeological prospection case studies.
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Krupochkin, E., D. Vorobiev, and S. Sukhanov. "Spatio-temporal aspects of the study of archaeological monuments of the Yustyt archaeological microdistrict: theory, methodology, results." In Historical research in the context of data science: Information resources, analytical methods and digital technologies. LLC MAKS Press, 2020. http://dx.doi.org/10.29003/m1822.978-5-317-06529-4/285-291.

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The technology of geoinformational mapping and geoarchaeological analysis of archaeological monuments is proposed, which makes it possible to analyze the distribution of data on the settlement of the population of the archaeological microdistrict Yustyt. A new program for calculating spatial correlation has been developed and tested. Integral GIS models have been built that reflect the patterns of population settlement
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Leclercq, Eric, Marinette Savonnet, Andres Troya-Galvis, and Stephane Buttner. "Investigating a multi-paradigm system for the management of archaeological data: Corpus Lapidum Burgundiae." In 2013 Digital Heritage International Congress (DigitalHeritage). IEEE, 2013. http://dx.doi.org/10.1109/digitalheritage.2013.6743816.

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Robichaud, Leon, Hendrik Van Gijseghem, Kim Petit, and Joanne Burgess. "Managing and Analyzing Archaeological Data with GIS: the Case of Place D’Youville, Montréal." In 2018 3rd Digital Heritage International Congress (Digital Heritage) held jointly with 2018 24th International Conference on Virtual Systems & Multimedia (VSMM 2018). IEEE, 2018. http://dx.doi.org/10.1109/digitalheritage.2018.8810045.

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Ronzino, Paola, Valeria Acconcia, and Annalisa Falcone. "Towards the integration of spatial data through the Italian Geoportal for Archaeological Resources." In 2018 3rd Digital Heritage International Congress (Digital Heritage) held jointly with 2018 24th International Conference on Virtual Systems & Multimedia (VSMM 2018). IEEE, 2018. http://dx.doi.org/10.1109/digitalheritage.2018.8810132.

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Lorenzo, Henrique, P. Arias, M. C. Hernandez, S. Alvarez, and T. Teixeira. "Ground-based radar, close-range photogrammetry, and digital terrain data applied together to archaeological heritage documentation." In Ninth International Conference on Ground Penetrating Radar (GPR2002), edited by Steven Koppenjan and Hua Lee. SPIE, 2002. http://dx.doi.org/10.1117/12.462199.

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Tanasi, Davide, Ilenia Gradante, and Mariarita Sgarlata. "3D DIGITAL TECHNOLOGIES TO RECORD EXCAVATION DATA: THE CASE OF THE CATACOMBS OF ST. LUCY (SIRACUSA, SICILY)." In ARQUEOLÓGICA 2.0 - 8th International Congress on Archaeology, Computer Graphics, Cultural Heritage and Innovation. Universitat Politècnica València, 2016. http://dx.doi.org/10.4995/arqueologica8.2016.3002.

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Between 2013 and 2015, Arcadia University in partnership with the Pontifical Commission for Sacred Archaeology and the University of Catania undertook new excavation campaigns in the Catacombs of St. Lucy at Siracusa. The research focuses on some very problematic parts of Region C of the complex, including Oratory C, the so-called Pagan Shrine and Crypt VI. These areas document most effectively the long life of this Christian hypogeum, which incorporated previous structures and artefacts related to the Greek period and continued to be used until the Middle Ages. During the excavation an array of 3D digital techniques (3D scanning, 3d Modelling, Image-based 3D modelling) was used for the daily recording of the archaeological units, but also to create high-resolution virtual replicas of certain districts of the catacombs. Furthermore, the same techniques were applied to support the study of certain classes of materials, such as frescoes and marble architectural elements that could otherwise only be studied in the dark environment of the catacombs, making the visual analysis of such complex artifacts difficult and sometimes misleading, not to mention that the frequent use of strong sources of light for study can also endanger them. The virtual archaeology research undertaken at the Catacombs of St. Lucy represents the first systematic application of 3D digital technologies to the study of such a special archaeological context in Sicily.
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Hookk, D. "Web Analytics as a tool for analyzing a network resource with a variety of sources on the archaeological research materials." In Historical research in the context of data science: Information resources, analytical methods and digital technologies. LLC MAKS Press, 2020. http://dx.doi.org/10.29003/m1837.978-5-317-06529-4/384-390.

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Despite the already introduced concept of Webometrics, the visitors counter has considered as a main indicator of the effectiveness of the museum open sources. The article presents the statistical data and observations made during the work on the start-up project “Digital Encyclopedia of the Hermitage. Vol. 1. Archaeology”, as well as during the COVID-19 quarantine period, when communication with virtual visitors became a priority in museums.
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Reports on the topic "Digital archaeological data"

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Milek, Karen, and Richard Jones, eds. Science in Scottish Archaeology: ScARF Panel Report. Society of Antiquaries of Scotland, 2012. http://dx.doi.org/10.9750/scarf.06.2012.193.

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The main recommendations of the panel report can be summarised under four key headings:  High quality, high impact research: the importance of archaeological science is reflected in work that explores issues connected to important contemporary topics, including: the demography of, the nature of movement of, and contact between peoples; societal resilience; living on the Atlantic edge of Europe; and coping with environmental and climatic change. A series of large-scale and integrated archaeological science projects are required to stimulate research into these important topics. To engage fully with Science in Scottish Archaeology iv these questions data of sufficient richness is required that is accessible, both within Scotland and internationally. The RCAHMS’ database Canmore provides a model for digital dissemination that should be built on.  Integration: Archaeological science should be involved early in the process of archaeological investigation and as a matter of routine. Resultant data needs to be securely stored, made accessible and the research results widely disseminated. Sources of advice and its communication must be developed and promoted to support work in the commercial, academic, research, governmental and 3rd sectors.  Knowledge exchange and transfer: knowledge, data and skills need to be routinely transferred and embedded across the archaeological sector. This will enable the archaeological science community to better work together, establishing routes of communication and improving infrastructure. Improvements should be made to communication between different groups including peers, press and the wider public. Mechanisms exist to enable the wider community to engage with, and to feed into, the development of the archaeological and scientific database and to engage with current debates. Projects involving the wider community in data generation should be encouraged and opportunities for public engagement should be pursued through, for example, National Science Week and Scottish Archaeology Month.  Networks and forums: A network of specialists should be promoted to aid collaboration, provide access to the best advice, and raise awareness of current work. This would be complemented by creating a series inter-disciplinary working groups, to discuss and articulate archaeological science issues. An online service to match people (i.e. specialist or student) to material (whether e.g. environmental sample, artefactual assemblage, or skeletal assemblage) is also recommended. An annual meeting should also be held at which researchers would be able to promote current and future work, and draw attention to materials available for analysis, and to specialists/students looking to work on particular assemblages or projects. Such meetings could be rolled into a suitable public outreach event.
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