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faims-zotero-betterbibtex.bib
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@article{ballsun-stantonFAIMSMobileFlexible2018,
title = {{{FAIMS Mobile}}: {{Flexible}}, Open-Source Software for Field Research},
author = {Ballsun-Stanton, Brian and Ross, Shawn Adrian and Sobotkova, Adela and Crook, Penny},
date = {2018-01},
journaltitle = {SoftwareX},
volume = {7C},
pages = {47--52},
issn = {2352-7110},
doi = {10.1016/j.softx.2017.12.006},
url = {http://dx.doi.org/10.1016/j.softx.2017.12.006},
abstract = {FAIMS Mobile is a native Android application supported by an Ubuntu server facilitating human-mediated field research across disciplines. It consists of `core' Java and Ruby software providing a platform for data capture, which can be deeply customised using `definition packets' consisting of XML documents (data schema and UI) and Beanshell scripts (automation). Definition packets can also be generated using an XML-based domain-specific language, making customisation easier. FAIMS Mobile includes features allowing rich and efficient data capture tailored to the needs of fieldwork. It also promotes synthetic research and improves transparency and reproducibility through the production of comprehensive datasets that can be mapped to vocabularies or ontologies as they are created.},
keywords = {FAIMS-publication}
}
@incollection{rossBuildingBazaarEnhancing2015,
title = {Building the {{Bazaar}}: {{Enhancing Archaeological Field Recording Through}} an {{Open Source Approach}}},
booktitle = {Open {{Source Archaeology}}: {{Ethics}} and {{Practice}}},
author = {Ross, Shawn Adrian and Ballsun-Stanton, Brian and Sobotkova, Adela and Crook, Penny},
editor = {Wilson, Andrew T and Edwards, Ben},
date = {2015-01},
pages = {111--129},
publisher = {{De Gruyter Open}},
location = {{Warsaw, Poland}},
url = {http://www.degruyter.com/view/books/9783110440171/9783110440171-009/9783110440171-009.xml},
abstract = {This chapter summarises the experience acquired by the Federated Archaeological Information Management Systems (FAIMS) project over the course of developing open-source software for archaeologists. open-source software development, which excels at coordinating discrete contributions from many people and organisations, ooers the best hope for producing complex and expensive tools in a discipline where resources are limited. Over the course of this project, we have come to realise that open-source approaches have applications in archaeological research beyond the development of software itself. The development of redeployable eld recording systems, which must be exible and robust in order to accommodate the diversity of archaeological data, represent one such application. FAIMS project software facilitates this type of development by separating the (large and complicated) application code from the (relatively simple and largely human-readable) document les that customise the application for use by a particular project. Distributed version control systems like GitHub, which are already being used for texts and documents beyond code, provide a capable platform for coordinating peer production of these deenition documents. FAIMS has used GitHub successfully for its internal development of early-adopter eld projects over the last year, demonstrating its potential. Just as open-source approaches have improved software by bringing the insights of an entire community to bear on diicult problems, eld recording systems-as well as the methods and approaches they embody also beneet from the transparency provided by wide distribution and collaboration facilitated by version control systems.},
isbn = {978-3-11-044017-1},
keywords = {FAIMS-publication}
}
@article{rossCreatingEresearchTools2013a,
title = {Creating Eresearch {{Tools For Archaeologists}}: {{The Federated Archaeological Information Management Systems Project}}},
author = {Ross, Shawn Adrian and Sobotkova, Adela and Ballsun-Stanton, Brian and Crook, Penny},
date = {2013},
journaltitle = {Australian Archaeology},
volume = {77},
number = {1},
pages = {107--119},
issn = {0312-2417},
doi = {10.1080/03122417.2013.11681983},
url = {http://www.tandfonline.com/doi/abs/10.1080/03122417.2013.11681983},
abstract = {In this article, the Federated Archaeological Information Management Systems (FAIMS) project presents its stocktaking activities and software development towards the creation of a comprehensive digital infrastructure for archaeologists. A National eResearch Collaboration Tools and Resources (NeCTAR)-funded initiative, the FAIMS project aims to develop tools to facilitate the creation, sharing, reuse and dissemination of high-quality digital datasets for research and cultural heritage management. FAIMS has engaged in an extensive stocktaking and liaison programme with archaeologists and related professionals, the results of which have shaped the development plans. Project development is focusing on highly customisable mobile applications for data collection, a web application for data processing, and an online repository for archiving and disseminating data, with provisions for creating semantically and technically compatible datasets embedded throughout. Data exchange using standard formats and approaches ensures that components work well together, and that new, externally developed tools can be added later. Our goal is to create a digital system that respects the current workflow of archaeological practice, improves the availability of compatible archaeological data, and delivers features that archaeologists want to use.},
keywords = {FAIMS-publication}
}
@incollection{rossIntroducingPreregistrationResearch2020,
title = {Introducing {{Preregistration}} of {{Research Design}} to {{Archaeology}}},
booktitle = {Digital {{Heritage}} and {{Archaeology}} in {{Practice}}},
author = {Ross, Shawn A and Ballsun-Stanton, Brian},
editor = {Watrall, Ethan and Goldstein, Lynne},
date = {2020},
publisher = {{University Press of Florida}},
location = {{Gainesville, FL}},
url = {https://osf.io/preprints/socarxiv/sbwcq},
abstract = {Archaeology has an issue with “just-in-time” research, where insufficient attention is paid to articulating a research design before fieldwork begins. Data collection, management, and analysis approaches are under-planned and, often, evolved during fieldwork. While reducing the amount of preparation time for busy researchers, these tendencies reduce the reliability of research by exacerbating the effects of cognitive biases and perverse professional incentives. They cost time later through the accrual of technical debt. Worse, these practices hinder research transparency and scalability by undermining the quality, consistency, and compatibility of data. Archaeologists would benefit from embracing the “preregistration revolution” sweeping other disciplines. By publicly commiting to research design and methodology ahead of time, researchers can produce more robust research, generate useful and reusable datasets, and reduce the time spent correcting problems with data. Preregistration can accommodate the diversity of archaeological research, including quantitative and qualitative approaches, hypothesis-testing and hypothesis-generating research paradigms, and place-specific and generalising aims. It is appropriate regardless of the technical approach to data collection and analysis. More broadly, it encourages a more considered, thoughtful approach to research design. Preregistration templates for the social sciences can be adopted for use by archaeologists.},
keywords = {FAIMS-publication}
}
@inproceedings{sobotkovaArbitraryOfflineData2015a,
title = {Arbitrary {{Offline Data Capture}} on {{All}} of {{Your Androids}}: {{The FAIMS Mobile Platform}}},
booktitle = {Across {{Space}} and {{Time}}. {{Papers}} from the 41st {{Annual Conference}} of {{Computer Applications}} and {{Quantitative Methods}} in {{Archaeology}} ({{CAA}})},
author = {Sobotkova, Adela and Ballsun-Stanton, Brian and Ross, Shawn and Crook, Penny},
editor = {Traviglia, Arianna},
date = {2015},
pages = {80--88},
publisher = {{Amsterdam University Press}},
abstract = {This paper presents three key problems addressed by the Federated Archaeological Information Management Systems (FAIMS) project and presented during a Round Table session at the 2013 CAA. FAIMS is a major Australian digital infrastructure project established in 2012 to develop open source eResearch tools to improve archaeological data management. We first review existing Android GIS applications and discuss their performance and suitability for archaeological fieldwork in remote locations, before presenting the lessons of this review for FAIMS mobile application development. We then discuss the variety of Australian archaeological practice, suggesting how semantically compatible datasets may be produced from diverse sources at the time of data creation. Finally, we introduce the data structure underlying our mobile application, which accommodates a wide range of practices and data models while promoting syntactic and semantic dataset compatibility.},
keywords = {android dataset compatibility field recording gis mobile,FAIMS-publication}
}
@article{sobotkovaDeployingOfflineMultiuser2021,
title = {Deploying an Offline, Multi-User Mobile System for Digital Recording of Landscape Archaeology in the {{Perachora Peninsula}}, {{Greece}}},
author = {Sobotkova, Adela and Ross, Shawn Adrian and Hermankova, Petra and Lupak, Susan and Nassif-Haynes, Christian and Ballsun-Stanton, Brian and Kasimi, Panagiota},
date = {2021},
journaltitle = {Journal of Field Archaeology},
abstract = {This article discusses the deployment of FAIMS Mobile to document systematic survey and legacy feature verification at the Perachora Peninsula Archaeology Project (PPAP), Greece, in 2020. FAIMS Mobile is an open-source platform that generates customized Android applications for data capture during field research. We reused and adapted two existing customizations from the FAIMS library for comprehensive digital recording of two workflows, integrating a collection of structured data, geospatial data, photos, and text. FAIMS Mobile required only modest hardware but supported offline setup, synchronization, and data export, allowing PPAP to deploy it despite unreliable internet access. The system proved successful; it was tailored to our aims and methods, captured consistent and well-described data rapidly, and minimized post-processing. All collected data was available daily for planning, and a comprehensive, FAIR-compliant dataset was ready for analysis with only a few hours of processing after fieldwork.},
keywords = {FAIMS-publication}
}
@incollection{sobotkovaMeasureTwiceCut2016,
title = {Measure {{Twice}}, {{Cut Once}}: {{Cooperative Deployment}} of a {{Generalized}}, {{Archaeology}}-{{Specific Field Data Collection System}}},
booktitle = {Mobilizing the {{Past}} for a {{Digital Future}}: {{The Potential}} of {{Digital Archaeology}}},
author = {Sobotkova, Adela and Ross, Shawn Adrian and Ballsun-Stanton, Brian and Fairbairn, Andrew and Thompson, Jessica and VanValkenburgh, Parker},
editor = {Averett, Erin Walcek and Gordon, Jody Michael and Counts, Derek B},
date = {2016-10},
pages = {337--371},
publisher = {{The Digital Press @ University of North Dakota}},
location = {{Grand Forks, ND}},
url = {http://dc.uwm.edu/arthist_mobilizingthepast/15},
abstract = {The Federated Archaeological Information Management Systems (FAIMS) Project is an Australian, university-based initiative developing a generalized, open-source mobile data collection platform that can be customized for diverse archaeological activities. Three field directors report their experiences adapting FAIMS software to projects in Turkey, Malawi, and Peru, highlighting three themes: (1) the transition from paper to digital recording has upfront costs with backend pay-off, (2) the transition involves decisions and tradeoffs that archaeologists and technologists need to make together, and (3) digital recording has both short- and long-term benefits. In the short-term, project directors reported efficient acquisition of richer, more accurate, data. Longer-term, they anticipated that the availability of comprehensive, born-digital datasets would support rigorous demonstration of field intuitions and faster publication of more complete datasets. We argue that cooperative development involving archaeologists and technologists can produce high-quality, fit-for-purpose software, representing the best chance to embedding new technology in established projects.},
isbn = {978-0-692-79013-7},
keywords = {FAIMS-publication}
}
@article{sobotkovaSociotechnicalObstaclesArchaeological2018,
title = {Sociotechnical {{Obstacles}} to {{Archaeological Data Reuse}}},
author = {Sobotkova, Adela},
date = {2018-05},
journaltitle = {Advances in Archaeological Practice},
volume = {6},
number = {2},
pages = {117--124},
publisher = {{Cambridge University Press}},
issn = {2326-3768},
doi = {10.1017/aap.2017.37},
url = {https://www.cambridge.org/core/journals/advances-in-archaeological-practice/article/sociotechnical-obstacles-to-archaeological-data-reuse/DBEBC733DA7D5C381A59D6E70C5AB59D},
abstract = {The ease of digital data capture and the proliferation of concepts such as the “data deluge” suggest that modern researchers are drowning in datasets. Yet citations of archaeological datasets are few and far between, pointing to low rates of data reuse. This article explores the difficulties that surround data reuse in large-scale regional research, including the cost and coordination necessary to extract useful data from digitized PDF reports. The amount of correction and enhancement matches the effort needed to undertake a small field survey project and can only be circumvented with a thoughtful application of computer-assisted text analysis. Missing data in excavation report PDFs are not only intractable but also insidious due to their concealed nature, leading to poor outcomes in terms of (re)use. Consequently, the degree of data reuse in archaeology has been overestimated.},
keywords = {FAIMS-publication}
}
@report{thorneM436DistalFootprints2018,
title = {M436 {{Distal Footprints}}: {{UNCOVER Australia}} - {{Hydrogeochemistry}} of the {{Capricorn Orogen}}},
author = {Thorne, Robert and Reid, Nathan and Gray, David and Ballsun-Stanton, Brian and Bardwell, Nicki and Klump, Jens and Davis, Aaron and Ross, Shawn and Sobotkova, Adela},
date = {2018},
number = {EP182906},
institution = {{CSIRO}},
url = {http://dx.doi.org/10.25919/5cddb339279ec},
abstract = {The Capricorn hydrogeochemistry study builds on previous work in the Yilgarn Craton, creating a seamless dataset that covers much of Western Australia. This study has developed a provisional review of the mineral prospectivity of the region using groundwater geochemistry, defining areas of interest requiring further investigation. In the Capricorn, groundwater samples were collected from 1035 wells and bores, in most cases the water table was within 20 m of the surface. Samples were also taken from known mineral deposits to provide examples of the geochemical signature associated with mineralisation in the region. Field measurements included pH, Eh, EC and temperature. Separate field prepared sub-samples were collected for cation, anion, alkalinity, and Au/PGE analysis. Robust statistical methods were applied to combine bailed and flowing samples using a derived contamination factor that is tailored to the individual measured parameters. Rescaling normal or log-normal data and the creation of indices for lithology discrimination, Au, U and sulfide mineralisation improved the utility of hydrogeochemical data. All samples were analysed for δ18O, δ2H and selected samples were analysed for δ34S and associated δ18O from SO42. A number of different parameters can be used to indicate rock types from hydrogeochemical data even when there is deep weathering or transported cover. Higher dissolved concentrations of elements can indicate mafic (Cr, V) or granitic (U, F) rocks and ratios between elements (e.g. K excess, relative to Rb) can differentiate between granitic and sedimentary terrains. These determinations are improved by multi-element indices. The work tests the utility of previously derived mineral exploration indices, and has resulted in the creation of new indices designed for the geology of the Capricorn Orogen. Hydrogeochemical exploration for Au using Au, Ag, As and combined element indices such as AuMin was able to delineate areas of known mineralisation and target new areas of interest. The FeS index developed in the north Yilgarn Craton did not prove to be very effective in the Capricorn, but the AcidS index has anomalism linked to most of the known deposits and provides new areas of interest. There are several areas in the Capricorn that have U concentrations greater than those in close proximity to known deposits in the north Yilgarn. Spatially, the carnotite saturation index predicts most of the known U prospects and provides new targets in the Capricorn. The utility of groundwater as a sample medium able to `see through' cover was tested in two case study regions. In the Bryah Basin, groundwater possesses the chemical signature of mafic rocks but due to the thickness of transported cover soil sample chemistry does not reflect the underlying lithologies. At the polymetallic Abra deposit groundwater possesses anomalous Pb and W concentrations related to the buried deposit, whilst soil samples are proven to be an ineffective at targeting mineralisation. Oxygen and hydrogen isotopes highlight groundwater samples that have a composition suggestive of a water source other than meteoric water. This water source has mixed with meteoric water and may be linked to faults, mineralisation or hydrothermal alteration. Light δ34S values and associated light δ18O successfully identified mineralisation at Paulsens Au deposit and have the potential to target new areas of mineralisation. This research further demonstrates the value of groundwater chemistry for defining lithology, hydrothermal alteration and mineralisation in areas with and without cover. Stable isotopes have been used systematically across the region to assist in delineating new areas of interest.},
keywords = {FAIMS-publication}
}
@article{vanvalkenburghMobilizationMediationImplementing2018,
title = {Mobilization as {{Mediation}}: {{Implementing}} a {{Tablet}}-{{Based Recording System}} for {{Ceramic Classification}}},
author = {VanValkenburgh, Parker and Silva, Luiza O G and Repetti-Ludlow, Chiara and Gardner, Jake and Crook, Jackson and Ballsun-Stanton, Brian},
date = {2018},
journaltitle = {Advances in Archaeological Practice},
pages = {1--15},
doi = {10.1017/aap.2018.12},
url = {http://dx.doi.org/10.1017/aap.2018.12},
abstract = {In this essay, we examine the potentials and challenges of mobile computing for a core activity of archaeological laboratory research—the typological analysis of ceramics. We discuss the collaborative development, implementation, and evaluation of the PAZC Ceramics module in the FAIMS Mobile platform. Our deployment of the module yielded significant improvements in the efficiency of data collection, as well as reduced numbers of missing fields and higher user satisfaction scores. However, it did not improve data consistency between users and yielded a classificatory system that was somewhat more challenging to update than our previous mode of operation. These results underscore some of the trade-offs that may be entailed in employing mobile technologies for archaeological applications and highlight the ways in which specific media configurations impact the production of archaeological knowledge.},
keywords = {FAIMS-publication}
}
%--new publications added 2022-12--
@ARTICLE{Ross2022-yf,
title = "{FAIRer} data through digital recording: The {FAIMS} mobile
experience",
author = "Ross, Shawn and Ballsun-Stanton, Brian and Cassidy, Steve and
Crook, Penny and Klump, Jens and Sobotkova, Adela",
journal = "Journal of computer applications in archaeology",
publisher = "Ubiquity Press, Ltd.",
volume = 5,
number = 1,
pages = "271",
month = nov,
year = 2022,
url = "https://journal.caa-international.org/articles/10.5334/jcaa.96/",
issn = "2514-8362, 2514-8362",
doi = "10.5334/jcaa.96"
}
@INCOLLECTION{Ross2022-yg,
title = "Introducing Preregistration of Research Design to Archaeology",
booktitle = "Digital Heritage and Archaeology in Practice: Data, Ethics,
and Professionalism",
author = "Ross, Shawn Adrian and Ballsun-Stanton, Brian",
editor = "Watrall, Ethan and Goldstein, Lynne",
abstract = "Archaeology has an issue with ``just-in-time'' research, where
insufficient attention is paid to articulating a research
design before fieldwork begins. Data collection, management,
and analysis approaches are under-planned and, often, evolved
during fieldwork. While reducing the amount of preparation
time for busy researchers, these tendencies reduce the
reliability of research by exacerbating the effects of
cognitive biases and perverse professional incentives. They
cost time later through the accrual of technical debt. Worse,
these practices hinder research transparency and scalability
by undermining the quality, consistency, and compatibility of
data. Archaeologists would benefit from embracing the
``preregistration revolution'' sweeping other disciplines. By
publicly commiting to research design and methodology ahead of
time, researchers can produce more robust research, generate
useful and reusable datasets, and reduce the time spent
correcting problems with data. Preregistration can accommodate
the diversity of archaeological research, including
quantitative and qualitative approaches, hypothesis-testing
and hypothesis-generating research paradigms, and
place-specific and generalising aims. It is appropriate
regardless of the technical approach to data collection and
analysis. More broadly, it encourages a more considered,
thoughtful approach to research design. Preregistration
templates for the social sciences can be adopted for use by
archaeologists.",
publisher = "University Press of Florida",
volume = 101232,
pages = "15--35",
series = "Project MUSE",
year = 2022,
url = "https://muse.jhu.edu/book/101232",
note = "",
address = "Gainesville, FL",
isbn = "9780813069302",
original_id = "f4320409-d13a-00f1-928d-2c4ddc88ecbd"
}
@ARTICLE{Sobotkova2021-ms,
title = "Deploying an offline, multi-user mobile system for digital
recording of landscape archaeology in the Perachora Peninsula,
Greece",
author = "Sobotkova, Adela and Ross, Shawn Adrian and Hermankova, Petra and
Lupak, Susan and Nassif-Haynes, Christian and Ballsun-Stanton,
Brian and Kasimi, Panagiota",
abstract = "This article discusses the deployment of mobile data capture
software developed by the Field Acquired Information Management
Systems project (FAIMS Mobile) to document systematic pedestrian
surface survey and legacy feature verification at the Perachora
Peninsula Archaeology Project (PPAP), Greece, in 2020. FAIMS
Mobile is an open-source platform that generates customized
Android applications for data capture during field research. We
reused and adapted two existing customizations from the FAIMS
library for comprehensive digital recording of two workflows,
integrating a collection of structured data, geospatial data,
photos, and text. FAIMS Mobile required only modest hardware but
supported offline setup, synchronization, and data export,
allowing PPAP to deploy it despite unreliable internet access.
The system proved successful; it was tailored to our aims and
methods, captured consistent and well-described data rapidly, and
minimized post-processing. All collected data was available daily
for planning, and a comprehensive dataset adhering to Findable,
Accessible, Interoperable, and Reusable (FAIR) data standards was
ready for analysis with only a few hours of processing after
fieldwork.",
journal = "Journal of Field Archaeology",
volume = 46,
number = 8,
pages = "571--594",
year = 2021,
note = "",
doi = "10.1080/00934690.2021.1969837"
}