MA-Thesis ALIS_bibtex_wout_files.bib

@misc{noauthor_notion_nodate,
	title = {Notion – {The} all-in-one workspace for your notes, tasks, wikis, and databases.},
	url = {https://www.notion.so},
	abstract = {A new tool that blends your everyday work apps into one. It's the all-in-one workspace for you and your team},
	language = {de},
	urldate = {2024-01-10},
	journal = {Notion},
	file = {Snapshot:B\:\\Zotero\\storage\\SQKA62N6\\44563a3e25d24ab28a32c641cede6748.html:text/html},
}

@misc{noauthor_notion_nodate-1,
	title = {Notion – {The} all-in-one workspace for your notes, tasks, wikis, and databases.},
	url = {https://www.notion.so},
	abstract = {A new tool that blends your everyday work apps into one. It's the all-in-one workspace for you and your team},
	language = {de},
	urldate = {2024-01-11},
	journal = {Notion},
	file = {Snapshot:B\:\\Zotero\\storage\\KSCIHWPC\\1e05679296f04535a72487e93bca9b75.html:text/html},
}

@book{herndon_data_2022,
	address = {London},
	title = {Data science in the library: : tools and strategies for supporting data-driven research and instruction},
	isbn = {978-1-78330-518-6},
	shorttitle = {Data science in the library},
	abstract = {In the last decade, data science has generated new fields of study and transformed existing disciplines. As data science reshapes academia, how can libraries and librarians engage with this rapidly evolving, dynamic form of research? Can libraries leverage their existing strengths in information management, instruction, and research support to advance data science?Data Science in the Library: Tools and Strategies for Supporting Data-Driven Research and Instruction brings together an international group of librarians and faculty to consider the opportunities afforded by data science for research libraries. Using practical examples, each chapter focuses on data science instruction, reproducible research, establishing data science services and key data science partnerships.This book will be invaluable to library and information professionals interested in building or expanding data science services. It is a practical, useful tool for researchers, students, and instructors interested in implementing models for data science service that build community and advance the discipline.},
	language = {eng},
	publisher = {Facet Publishing},
	editor = {Herndon, Joel},
	year = {2022},
	keywords = {Data processing, Research, Data curation in libraries, Data services librarians, Database management in libraries, Big data, notion},
}

@article{granger_jupyter_2021,
	title = {Jupyter: {Thinking} and {Storytelling} {With} {Code} and {Data}},
	volume = {23},
	issn = {1558-366X},
	shorttitle = {Jupyter},
	url = {https://ieeexplore.ieee.org/abstract/document/9387490},
	doi = {10.1109/MCSE.2021.3059263},
	abstract = {Project Jupyter is an open-source project for interactive computing widely used in data science, machine learning, and scientific computing. We argue that even though Jupyter helps users perform complex, technical work, Jupyter itself solves problems that are fundamentally human in nature. Namely, Jupyter helps humans to think and tell stories with code and data. We illustrate this by describing three dimensions of Jupyter: 1) interactive computing; 2) computational narratives; and 3) the idea that Jupyter is more than software. We illustrate the impact of these dimensions on a community of practice in earth and climate science.},
	number = {2},
	urldate = {2024-06-21},
	journal = {Computing in Science \& Engineering},
	author = {Granger, Brian E. and Pérez, Fernando},
	month = mar,
	year = {2021},
	note = {Conference Name: Computing in Science \& Engineering},
	keywords = {Data science, Machine learning, Meteorology, Open source software, Scientific computing},
	pages = {7--14},
	file = {IEEE Xplore Abstract Record:B\:\\Zotero\\storage\\5QXA4QAA\\9387490.html:text/html;IEEE Xplore Full Text PDF:B\:\\Zotero\\storage\\KGY4AIWS\\Granger und Pérez - 2021 - Jupyter Thinking and Storytelling With Code and D.pdf:application/pdf},
}

@article{joyeux-prunel_digital_2024,
	title = {Digital humanities in the era of digital reproducibility: towards a fairest and post-computational framework},
	volume = {6},
	issn = {2524-7840},
	shorttitle = {Digital humanities in the era of digital reproducibility},
	url = {https://doi.org/10.1007/s42803-023-00079-6},
	doi = {10.1007/s42803-023-00079-6},
	abstract = {Reproducibility has become a requirement in the hard sciences, and its adoption is gradually extending to the digital humanities. The FAIR criteria and the publication of data papers are both indicative of this trend. However, the question that arises is whether the strict prerequisites of digital reproducibility serve only to exclude digital humanities from broader humanities scholarship. Instead of adopting a binary approach, an alternative method acknowledges the unique features of the objects, inquiries, and techniques of the humanities, including digital humanities, as well as the social and historical contexts in which the concept of reproducibility has developed in the human sciences. In the first part of this paper, I propose to examine the historical and disciplinary context in which the concept of reproducibility has developed within the human sciences, and the disciplinary struggles involved in this process, especially for art history and literature studies. In the second part, I will explore the question of reproducibility through two art history research projects that utilize various computational methods. I argue that issues of corpus, method, and interpretation cannot be separated, rendering a procedural definition of reproducibility impractical. Consequently, I propose the adoption of ‘post-computational reproducibility’, which is based on FAIREST criteria as far as digital corpora are concerned (FAIR + Ethics and Expertise, Source mention + Time-Stamp), but extended to include further sources that confirm computational results with other non-computational methodologies.},
	language = {en},
	number = {1},
	urldate = {2024-06-21},
	journal = {International Journal of Digital Humanities},
	author = {Joyeux-Prunel, Béatrice},
	month = apr,
	year = {2024},
	keywords = {Digital humanities, Data, Digital art history, Distant reading, FAIR principles, Reproducibility},
	pages = {23--43},
	file = {Full Text PDF:B\:\\Zotero\\storage\\ZJZRZ8TW\\Joyeux-Prunel - 2024 - Digital humanities in the era of digital reproduci.pdf:application/pdf},
}

@article{jones_digital_2024,
	title = {Digital {History}},
	copyright = {© 2023 The Author(s). Published by Informa UK Limited, trading as Taylor \& Francis Group},
	issn = {1031-461X},
	url = {https://www.tandfonline.com/doi/abs/10.1080/1031461X.2023.2267586},
	abstract = {Digital history started to flourish in Australia and New Zealand in the 2000s and early 2010s. But some of this momentum has since been lost due to ageing technologies, a lack of supporting infrast...},
	language = {EN},
	urldate = {2024-06-21},
	journal = {Australian Historical Studies},
	author = {Jones, Mike and Piper, Alana},
	month = jan,
	year = {2024},
	note = {Publisher: Routledge},
	file = {Snapshot:B\:\\Zotero\\storage\\XQTTUHI4\\1031461X.2023.html:text/html},
}

@article{thibault_open_2023,
	title = {Open {Science} 2.0: {Towards} a truly collaborative research ecosystem},
	volume = {21},
	issn = {1545-7885},
	shorttitle = {Open {Science} 2.0},
	url = {https://journals.plos.org/plosbiology/article?id=10.1371/journal.pbio.3002362},
	doi = {10.1371/journal.pbio.3002362},
	abstract = {Conversations about open science have reached the mainstream, yet many open science practices such as data sharing remain uncommon. Our efforts towards openness therefore need to increase in scale and aim for a more ambitious target. We need an ecosystem not only where research outputs are openly shared but also in which transparency permeates the research process from the start and lends itself to more rigorous and collaborative research. To support this vision, this Essay provides an overview of a selection of open science initiatives from the past 2 decades, focusing on methods transparency, scholarly communication, team science, and research culture, and speculates about what the future of open science could look like. It then draws on these examples to provide recommendations for how funders, institutions, journals, regulators, and other stakeholders can create an environment that is ripe for improvement.},
	language = {en},
	number = {10},
	urldate = {2024-06-21},
	journal = {PLOS Biology},
	author = {Thibault, Robert T. and Amaral, Olavo B. and Argolo, Felipe and Bandrowski, Anita E. and Alexandra R, Davidson and Drude, Natascha I.},
	month = oct,
	year = {2023},
	note = {Publisher: Public Library of Science},
	keywords = {Reproducibility, Clinical trials, Ecosystems, Open data, Open science, Quality control, Research quality assessment, Science policy},
	pages = {e3002362},
	file = {Full Text PDF:B\:\\Zotero\\storage\\47U67MWX\\Thibault et al. - 2023 - Open Science 2.0 Towards a truly collaborative re.pdf:application/pdf},
}

@article{noauthor_open_2023,
	title = {Open data and algorithms for open science in {AI}-driven molecular informatics},
	volume = {79},
	issn = {0959-440X},
	url = {https://www.sciencedirect.com/science/article/pii/S0959440X23000167},
	doi = {10.1016/j.sbi.2023.102542},
	abstract = {Recent years have seen a sharp increase in the development of deep learning and artificial intelligence-based molecular informatics. There has been a …},
	language = {en-US},
	urldate = {2024-06-21},
	journal = {Current Opinion in Structural Biology},
	month = apr,
	year = {2023},
	note = {Publisher: Elsevier Current Trends},
	pages = {102542},
	file = {Snapshot:B\:\\Zotero\\storage\\IBDTI72Q\\S0959440X23000167.html:text/html;Volltext:B\:\\Zotero\\storage\\7RMGN5H4\\2023 - Open data and algorithms for open science in AI-dr.pdf:application/pdf},
}

@article{zarghani_application_2023,
	title = {The {Application} of {Open} {Science} {Potentials} in {Research} {Processes}: {A} {Comprehensive} {Literature} {Review}},
	volume = {73},
	copyright = {De Gruyter expressly reserves the right to use all content for commercial text and data mining within the meaning of Section 44b of the German Copyright Act.},
	issn = {1865-8423},
	shorttitle = {The {Application} of {Open} {Science} {Potentials} in {Research} {Processes}},
	url = {https://www.degruyter.com/document/doi/10.1515/libri-2022-0007/html},
	doi = {10.1515/libri-2022-0007},
	abstract = {The aim of this study was to conduct a comprehensive literature review of the dimensions of open science in research processes. A total of four databases and snowball searching were used for the comprehensive literature review during 2011–2020; then, we were able to find 98 studies based on the inclusion criteria. Also, we used thematic method to review the relevant studies and identified three categories of dimensions in the research process, namely (1) the publication and sharing category including open access, open data, transparency and reproducibility, citizen science, and crowd sourcing; (2) the infrastructure and cultural category including open infrastructure, open education, open tools, budget mechanism, open culture, and communication; and (3) governance and evaluation including policies, governance, and the ethical principles associated with open science. Open science emphasizes the efforts to open and make the scientific research process more inclusive so as to engage the inside and outside actors in the research process.},
	language = {en},
	number = {2},
	urldate = {2024-06-21},
	journal = {Libri},
	author = {Zarghani, Maryam and Nemati-Anaraki, Leila and Sedghi, Shahram and Chakoli, Abdolreza Noroozi and Rowhani-Farid, Anisa},
	month = jun,
	year = {2023},
	note = {Publisher: De Gruyter Saur},
	keywords = {open research, open science, open science practices, research processes},
	pages = {167--186},
}

@article{noauthor_harvesting_2023,
	title = {Harvesting publication data to the institutional repository from {Scopus}, {Web} of {Science}, {Dimensions} and {Unpaywall} using a custom {R} {Script}},
	volume = {49},
	issn = {0099-1333},
	url = {https://www.sciencedirect.com/science/article/abs/pii/S0099133322001690},
	doi = {10.1016/j.acalib.2022.102653},
	abstract = {Institutional repositories are established tools for archiving and increasing the visibility and availability of academic outputs. Although the potent…},
	language = {en-US},
	number = {1},
	urldate = {2024-06-21},
	journal = {The Journal of Academic Librarianship},
	month = jan,
	year = {2023},
	note = {Publisher: JAI},
	pages = {102653},
	file = {Snapshot:B\:\\Zotero\\storage\\MGTBFBXN\\S0099133322001690.html:text/html},
}

@incollection{bonino_da_silva_santos_towards_2023,
	title = {Towards a {Conceptual} {Model} for the {FAIR} {Digital} {Object} {Framework}},
	url = {https://ebooks.iospress.nl/doi/10.3233/FAIA231131},
	urldate = {2024-06-21},
	booktitle = {Formal {Ontology} in {Information} {Systems}},
	publisher = {IOS Press},
	author = {Bonino da Silva Santos, Luiz Olavo and Sales, Tiago Prince and Fonseca, Claudenir M. and Guizzardi, Giancarlo},
	year = {2023},
	doi = {10.3233/FAIA231131},
	pages = {227--241},
	file = {Full Text PDF:B\:\\Zotero\\storage\\RUUDZJN8\\Bonino da Silva Santos et al. - 2023 - Towards a Conceptual Model for the FAIR Digital Ob.pdf:application/pdf},
}

@article{rosenblatt_digital_1997,
	title = {The {Digital} {Object} {Identifier}: {Solving} the {Dilemma} of {Copyright} {Protection} {Online}},
	volume = {3},
	issn = {1080-2711},
	shorttitle = {The {Digital} {Object} {Identifier}},
	url = {http://hdl.handle.net/2027/spo.3336451.0003.204},
	doi = {https://doi.org/10.3998/3336451.0003.204},
	number = {2},
	journal = {Journal of Electronic Publishing},
	author = {Rosenblatt, Bill},
	month = dec,
	year = {1997},
	file = {The Digital Object Identifier\: Solving the Dilemma of Copyright Protection Online:B\:\\Zotero\\storage\\F95LGBW8\\3336451.0003.html:text/html},
}

@article{liu_digital_2021,
	title = {Digital {Object} {Identifier} ({DOI}) and {DOI} {Services}: {An} {Overview}},
	volume = {71},
	copyright = {De Gruyter expressly reserves the right to use all content for commercial text and data mining within the meaning of Section 44b of the German Copyright Act.},
	issn = {1865-8423},
	shorttitle = {Digital {Object} {Identifier} ({DOI}) and {DOI} {Services}},
	url = {https://www.degruyter.com/document/doi/10.1515/libri-2020-0018/html},
	doi = {10.1515/libri-2020-0018},
	abstract = {In the establishing anniversary of the two biggest Digital Object Identifier (DOI) registration agencies all over the world, Crossref and DataCite, the paper intends to provide an overview of the development and approaches and of DOI and DOI services, from which scholarly communication has benefited greatly. At first, the author explores the initiation of DOI and differences of DOI from other persistent identifiers. After that, DOIs for different kinds of objects and DOIs’ value in enhancing scholarly communication is discussed; then, in the second part, DOI services at different levels in a pyramid and those particularly in Germany are described. The active involvement of the library world are also introduced here; finally, the current situation and prospects as well as some issues dealing with DOIs and DOI services are investigated in the last part of the paper.},
	language = {en},
	number = {4},
	urldate = {2024-06-21},
	journal = {Libri},
	author = {Liu, Jia},
	month = dec,
	year = {2021},
	note = {Publisher: De Gruyter Saur},
	keywords = {Digital Object Identifier (DOI), Persistent Identifier (PI), scholarly communication},
	pages = {349--360},
}

@article{chandrakar_digital_2006,
	title = {Digital object identifier system: an overview},
	volume = {24},
	issn = {0264-0473},
	shorttitle = {Digital object identifier system},
	url = {https://doi.org/10.1108/02640470610689151},
	doi = {10.1108/02640470610689151},
	abstract = {Purpose – This paper aims to describe the digital object identifier (DOI) system, an implementation of the Corporation for National Research Initiatives handle system, where a handle is designed to provide an efficient, extensible, and secured global name to an intellectual object. Design/methodology/approach – Explains the overview of DOI system, its components with examples in addition to benefits of DOI to user communities. Findings – The management of intellectual objects in a digital environment such as the internet, which is flooded with various kind of objects like research articles, e‐books, electronic theses and dissertations etc. requires the existence of persistent, reliable identifiers for each distinguishable piece of content and associated services activated by these identifiers to manage access and other digital rights. The DOI is the essential part of the electronic publishing especially for the management and the access of the resources is concerned. The DOI system is the new technology developed for persistent identification and interoperable exchange of intellectual property on digital networks. Originality/value – This paper offers a useful explanation of DOI and their implementation in simple way for the professionals.},
	number = {4},
	urldate = {2024-06-21},
	journal = {The Electronic Library},
	author = {Chandrakar, Rajesh},
	month = jan,
	year = {2006},
	note = {Publisher: Emerald Group Publishing Limited},
	keywords = {Data handling, Digital signatures, Document handling, Electronic publishing},
	pages = {445--452},
	file = {Snapshot:B\:\\Zotero\\storage\\R5C8RAVL\\html.html:text/html},
}

@inproceedings{koulouzis_information_2018,
	title = {Information {Centric} {Networking} for {Sharing} and {Accessing} {Digital} {Objects} with {Persistent} {Identifiers} on {Data} {Infrastructures}},
	url = {https://ieeexplore.ieee.org/document/8411085},
	doi = {10.1109/CCGRID.2018.00098},
	abstract = {Persistent identifiers (PIDs) such as Digital Object Identifiers (DOIs) provide a unique and persistent way to identify and cite digital objects such as publications, media content and research data. They are widely used by data producers to catalogue and publish digital assets and research data. Nowadays, research infrastructures (RIs) offer services not only for accessing and publishing data objects, but also for processing data based on user demands, e.g., via scientific workflows or third party virtual research environments. However, efficiently retrieving and sharing digital objects in a shared data processing environment requires knowledge of application access patterns as well as the underlying network level distribution. As the number and size of data objects increases, optimizing data discovery and access among distributed partners on shared infrastructure emerges as an important challenge for infrastructure operators to maintain quality of service and user experience. In this paper, we propose a novel approach that utilizes Information Centric Networking (ICN) to retrieve content based on PIDs while optimizing data access on shared infrastructure.},
	urldate = {2024-06-21},
	booktitle = {2018 18th {IEEE}/{ACM} {International} {Symposium} on {Cluster}, {Cloud} and {Grid} {Computing} ({CCGRID})},
	author = {Koulouzis, Spiros and Mousa, Rahaf and Karakannas, Andreas and de Laat, Cees and Zhao, Zhiming},
	month = may,
	year = {2018},
	keywords = {Data infrastructure, Distributed databases, Information Centric Networking, IP networks, Object recognition, Persistent Identifier, Public key, Publishing, Routing, Routing protocols},
	pages = {661--668},
	file = {IEEE Xplore Abstract Record:B\:\\Zotero\\storage\\3AUQU7VS\\8411085.html:text/html},
}

@misc{ale_ebrahim_digital_2016,
	type = {presentation},
	title = {Digital {Object} {Identifier} ({DOI}): {Introduction} and {Applications}},
	shorttitle = {Digital {Object} {Identifier} ({DOI})},
	url = {https://figshare.com/articles/presentation/Digital_Object_Identifier_DOI_Introduction_and_Applications/3759345/1},
	abstract = {The Digital Object Identifier (DOI) is used for identifying intellectual property in the digital environment. The DOI is like a digital fingerprint: Each article receives a unique one at birth, and it can be used to identify the article throughout its lifespan, no matter where it goes. A DOI should be interpreted as 'digital identifier of an object' rather than 'identifier of a digital object'. A DOI can be assigned to any Object. In this workshop you will learn how to define a DOI, prepare Meta Data, and assign a DOI for a journal paper.},
	language = {en},
	urldate = {2024-06-21},
	author = {Ale Ebrahim, Nader},
	month = aug,
	year = {2016},
	doi = {10.6084/m9.figshare.3759345.v1},
	note = {Publisher: figshare},
	file = {Full Text PDF:B\:\\Zotero\\storage\\DJIEZEMU\\Ale Ebrahim - 2016 - Digital Object Identifier (DOI) Introduction and .pdf:application/pdf},
}

@book{kubek_concepts_2020,
	address = {Cham},
	series = {Studies in {Big} {Data}},
	title = {Concepts and {Methods} for a {Librarian} of the {Web}},
	volume = {62},
	copyright = {http://www.springer.com/tdm},
	isbn = {978-3-030-23135-4 978-3-030-23136-1},
	url = {http://link.springer.com/10.1007/978-3-030-23136-1},
	language = {en},
	urldate = {2024-06-21},
	publisher = {Springer International Publishing},
	author = {Kubek, Mario},
	year = {2020},
	doi = {10.1007/978-3-030-23136-1},
	keywords = {Co-occurrence Graph, Librarian of the Web, P2P-system, Web Engine, Web Search Engine},
	file = {Eingereichte Version:B\:\\Zotero\\storage\\LDBF9I6U\\Kubek - 2020 - Concepts and Methods for a Librarian of the Web.pdf:application/pdf},
}

@inproceedings{bazzanella_interoperability_2016,
	address = {Cham},
	title = {An {Interoperability} {Infrastructure} for {Digital} {Identifiers} in e-{Science}},
	isbn = {978-3-319-41938-1},
	doi = {10.1007/978-3-319-41938-1_17},
	abstract = {The rapid increase of scientific digital assets in the last years has made clear that digital identifiers are crucial for effectively publishing, accessing and managing digital information in e-science contexts. From persistent keys for access to digital objects in network environments, the concept of persistent identifiers has been more recently extended to identify also physical objects like people, institutions and any type of relevant entity in the e-Science domain, opening the way to the creation of an integrated information space where a network of resources can be resolved, linked, navigated and analyzed, as the Linked Open Data approach envisions for the Web. However, the creation and full exploitation of this valuable network of connections is currently hindered by the fragmentation and lack of coordination of the digital identifier ecosystem. The aim of this paper is to propose an open, distributed and scalable infrastructure for interoperating existing Persistent Identifiers and other digital identifier systems (like Cool URIs) in e-science, overcoming geographical, disciplinary and organizational boundaries. The Digital Identifier interoperability infrastructure is presented as a cross-cutting solution of core services enabling interoperability at three different levels: identifier, co-reference and semantic.},
	language = {en},
	booktitle = {Digital {Libraries} on the {Move}},
	publisher = {Springer International Publishing},
	author = {Bazzanella, Barbara and Bouquet, Paolo},
	editor = {Calvanese, Diego and De Nart, Dario and Tasso, Carlo},
	year = {2016},
	pages = {167--178},
	file = {Eingereichte Version:B\:\\Zotero\\storage\\X34V7LG9\\Bazzanella und Bouquet - 2016 - An Interoperability Infrastructure for Digital Ide.pdf:application/pdf},
}

@misc{noauthor_fair_2024,
	title = {The fair principles: {Trusting} in fair data repositories},
	shorttitle = {The fair principles},
	url = {https://www.openaccessgovernment.org/article/the-fair-principles-trusting-in-fair-data-repositories/162752/},
	abstract = {Andy Götz, ESRF data manager and PaNOSC coordinator, discusses the impact of applying the FAIR principles to research data},
	language = {en-GB},
	urldate = {2024-06-21},
	journal = {Open Access Government},
	month = apr,
	year = {2024},
	file = {Snapshot:B\:\\Zotero\\storage\\HF2X758K\\162752.html:text/html},
}

@inproceedings{schultes_fair_2019,
	address = {Cham},
	title = {{FAIR} {Principles} and {Digital} {Objects}: {Accelerating} {Convergence} on a {Data} {Infrastructure}},
	isbn = {978-3-030-23584-0},
	shorttitle = {{FAIR} {Principles} and {Digital} {Objects}},
	doi = {10.1007/978-3-030-23584-0_1},
	abstract = {As Moore’s Law and associated technical advances continue to bulldoze their way through society, both exciting possibilities and severe challenges emerge. The upside is the explosive growth of data and compute resources that promise revolutionary modes of discovery and innovation not only within traditional knowledge disciplines, but especially between them. The challenge, however, is to build the large-scale, widely accessible, persistent and automated infrastructures that will be necessary for navigating and managing the unprecedented complexity of exponentially increasing quantities of distributed and heterogenous data. This will require innovations in both the technical and social domains. Inspired by the successful development of the Internet and leveraging the Digital Object Framework and FAIR Principles (for making data Findable, Accessible, Interoperable and Reusable by machines) the GO FAIR initiative works with voluntary stakeholders to accelerate convergence on minimal standards and working implementations leading to an Internet of FAIR Data and Services (IFDS). In close collaboration with GO FAIR and DONA, the RDA GEDE and C2CAMP initiatives will continue its FAIR DO implementation efforts..},
	language = {en},
	booktitle = {Data {Analytics} and {Management} in {Data} {Intensive} {Domains}},
	publisher = {Springer International Publishing},
	author = {Schultes, Erik and Wittenburg, Peter},
	editor = {Manolopoulos, Yannis and Stupnikov, Sergey},
	year = {2019},
	pages = {3--16},
}

@article{lamprecht_towards_2020,
	title = {Towards {FAIR} principles for\ research\ software},
	volume = {3},
	issn = {2451-8484},
	url = {https://content.iospress.com/articles/data-science/ds190026},
	doi = {10.3233/DS-190026},
	abstract = {The FAIR Guiding Principles, published in 2016, aim to improve the findability, accessibility, interoperability and reusability of digital research objects for both humans and machines. Until now the FAIR principles have been mostly applied to resear},
	language = {en},
	number = {1},
	urldate = {2024-06-21},
	journal = {Data Science},
	author = {Lamprecht, Anna-Lena and Garcia, Leyla and Kuzak, Mateusz and Martinez, Carlos and Arcila, Ricardo and Martin Del Pico, Eva and Dominguez Del Angel, Victoria and van de Sandt, Stephanie and Ison, Jon and Martinez, Paula Andrea and McQuilton, Peter and Valencia, Alfonso and Harrow, Jennifer and Psomopoulos, Fotis and Gelpi, Josep Ll and Chue Hong, Neil and Goble, Carole and Capella-Gutierrez, Salvador},
	month = jan,
	year = {2020},
	note = {Publisher: IOS Press},
	pages = {37--59},
	file = {Full Text PDF:B\:\\Zotero\\storage\\ECIL9VPF\\Lamprecht et al. - 2020 - Towards FAIR principles for&nbsp\;research&nbsp\;sof.pdf:application/pdf},
}

@misc{wachter_hypertext_2023,
	title = {Hypertext},
	copyright = {Creative Commons Attribution Share Alike 4.0 International},
	url = {https://zfdg.de/wp_2023_005_v1},
	doi = {10.17175/WP_2023_005},
	language = {de},
	urldate = {2024-06-21},
	publisher = {Zeitschrift für digitale Geisteswissenschaften – ZfdG},
	author = {Wachter, Christian and Vater, Dr. Christian},
	collaborator = {{Herzog August Bibliothek Wolfenbüttel}},
	year = {2023},
	note = {Medium: text/html,application/tei+xml,application/pdf
Publication Title: Working Paper 2 der Zeitschrift für digitale Geisteswissenschaften
Version Number: 1.0},
	file = {Wachter und Vater - 2023 - Hypertext.pdf:B\:\\Zotero\\storage\\KKWDAG8F\\Wachter und Vater - 2023 - Hypertext.pdf:application/pdf},
}

@article{berners-lee_information_nodate,
	title = {Information {Management}: {A} {Proposal}},
	language = {en},
	author = {Berners-Lee, Tim},
	file = {Berners-Lee - Information Management A Proposal.pdf:B\:\\Zotero\\storage\\AQKAPLRJ\\Berners-Lee - Information Management A Proposal.pdf:application/pdf},
}

@misc{noauthor_orcid_nodate,
	title = {{ORCID}},
	url = {https://orcid.org/},
	urldate = {2024-06-25},
	keywords = {notion},
	file = {ORCID:B\:\\Zotero\\storage\\WJSJE2S2\\orcid.org.html:text/html},
}

@misc{noauthor_zenodo_nodate,
	title = {Zenodo},
	url = {https://zenodo.org/},
	urldate = {2024-06-25},
	keywords = {notion},
	file = {Zenodo:B\:\\Zotero\\storage\\SG5UYS9Z\\zenodo.org.html:text/html},
}

@misc{noauthor_doiorg_nodate,
	title = {{DOI}.org},
	url = {https://www.doi.org/the-foundation/about-us/},
	urldate = {2024-06-25},
	keywords = {notion},
	file = {About Us:B\:\\Zotero\\storage\\H9LIP963\\about-us.html:text/html},
}

@misc{vierkant_datacite_nodate,
	title = {{DataCite} – {Connecting} {Research}, {Advancing} {Knowledge}},
	url = {https://datacite.org/},
	language = {en},
	urldate = {2024-06-25},
	journal = {DataCite},
	author = {Vierkant, Paul},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\BPMHTTFZ\\datacite.org.html:text/html},
}

@misc{noauthor_doi_nodate,
	title = {{DOI} ({Digital} {Object} {Identifier}) {\textbar} {CERN} {Scientific} {Information} {Service} ({SIS})},
	url = {https://sis.web.cern.ch/submit-and-publish/persistent-identifiers/doi},
	urldate = {2024-06-25},
	keywords = {notion},
	file = {DOI (Digital Object Identifier) | CERN Scientific Information Service (SIS):B\:\\Zotero\\storage\\FAFVMA4C\\doi.html:text/html},
}

@misc{rosa-clark_you_nodate,
	type = {website},
	title = {You are {Crossref}},
	copyright = {CC BY 4.0},
	url = {https://www.crossref.org/},
	abstract = {Crossref makes research objects easy to find, cite, link, assess, and reuse. We’re a not-for-profit membership organization that exists to make scholarly communications better.},
	language = {en},
	urldate = {2024-06-25},
	journal = {Crossref},
	author = {Rosa-Clark},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\QLM8SG8Q\\www.crossref.org.html:text/html},
}

@misc{ale_ebrahim_digital_2016-1,
	type = {presentation},
	title = {Digital {Object} {Identifier} ({DOI}): {Introduction} and {Applications}},
	shorttitle = {Digital {Object} {Identifier} ({DOI})},
	url = {https://figshare.com/articles/presentation/Digital_Object_Identifier_DOI_Introduction_and_Applications/3759345/1},
	abstract = {The Digital Object Identifier (DOI) is used for identifying intellectual property in the digital environment. The DOI is like a digital fingerprint: Each article receives a unique one at birth, and it can be used to identify the article throughout its lifespan, no matter where it goes. A DOI should be interpreted as 'digital identifier of an object' rather than 'identifier of a digital object'. A DOI can be assigned to any Object. In this workshop you will learn how to define a DOI, prepare Meta Data, and assign a DOI for a journal paper.},
	language = {en},
	urldate = {2024-06-25},
	author = {Ale Ebrahim, Nader},
	month = aug,
	year = {2016},
	doi = {10.6084/m9.figshare.3759345.v1},
	note = {Publisher: figshare},
	keywords = {notion},
	file = {Full Text PDF:B\:\\Zotero\\storage\\2USREF2U\\Ale Ebrahim - 2016 - Digital Object Identifier (DOI) Introduction and .pdf:application/pdf},
}

@inproceedings{koulouzis_information_2018-1,
	title = {Information {Centric} {Networking} for {Sharing} and {Accessing} {Digital} {Objects} with {Persistent} {Identifiers} on {Data} {Infrastructures}},
	url = {https://ieeexplore.ieee.org/document/8411085},
	doi = {10.1109/CCGRID.2018.00098},
	abstract = {Persistent identifiers (PIDs) such as Digital Object Identifiers (DOIs) provide a unique and persistent way to identify and cite digital objects such as publications, media content and research data. They are widely used by data producers to catalogue and publish digital assets and research data. Nowadays, research infrastructures (RIs) offer services not only for accessing and publishing data objects, but also for processing data based on user demands, e.g., via scientific workflows or third party virtual research environments. However, efficiently retrieving and sharing digital objects in a shared data processing environment requires knowledge of application access patterns as well as the underlying network level distribution. As the number and size of data objects increases, optimizing data discovery and access among distributed partners on shared infrastructure emerges as an important challenge for infrastructure operators to maintain quality of service and user experience. In this paper, we propose a novel approach that utilizes Information Centric Networking (ICN) to retrieve content based on PIDs while optimizing data access on shared infrastructure.},
	urldate = {2024-06-25},
	booktitle = {2018 18th {IEEE}/{ACM} {International} {Symposium} on {Cluster}, {Cloud} and {Grid} {Computing} ({CCGRID})},
	author = {Koulouzis, Spiros and Mousa, Rahaf and Karakannas, Andreas and de Laat, Cees and Zhao, Zhiming},
	month = may,
	year = {2018},
	keywords = {notion, Data infrastructure, Distributed databases, Information Centric Networking, IP networks, Object recognition, Persistent Identifier, Public key, Publishing, Routing, Routing protocols},
	pages = {661--668},
	file = {IEEE Xplore Abstract Record:B\:\\Zotero\\storage\\5NZL9M59\\8411085.html:text/html},
}

@article{chandrakar_digital_2006-1,
	title = {Digital object identifier system: an overview},
	volume = {24},
	issn = {0264-0473},
	shorttitle = {Digital object identifier system},
	url = {https://doi.org/10.1108/02640470610689151},
	doi = {10.1108/02640470610689151},
	abstract = {Purpose– This paper aims to describe the digital object identifier (DOI) system, an implementation of the Corporation for National Research Initiatives handle system, where a handle is designed to provide an efficient, extensible, and secured global name to an intellectual object.Design/methodology/approach– Explains the overview of DOI system, its components with examples in addition to benefits of DOI to user communities.Findings– The management of intellectual objects in a digital environment such as the internet, which is flooded with various kind of objects like research articles, e‐books, electronic theses and dissertations etc. requires the existence of persistent, reliable identifiers for each distinguishable piece of content and associated services activated by these identifiers to manage access and other digital rights. The DOI is the essential part of the electronic publishing especially for the management and the access of the resources is concerned. The DOI system is the new technology developed for persistent identification and interoperable exchange of intellectual property on digital networks.Originality/value– This paper offers a useful explanation of DOI and their implementation in simple way for the professionals.},
	number = {4},
	urldate = {2024-06-25},
	journal = {The Electronic Library},
	author = {Chandrakar, Rajesh},
	month = jan,
	year = {2006},
	note = {Publisher: Emerald Group Publishing Limited},
	keywords = {notion},
	pages = {445--452},
	file = {Full Text PDF:B\:\\Zotero\\storage\\TXG6H44Z\\Chandrakar - 2006 - Digital object identifier system an overview.pdf:application/pdf},
}

@article{liu_digital_2021-1,
	title = {Digital {Object} {Identifier} ({DOI}) and {DOI} {Services}: {An} {Overview}},
	volume = {71},
	copyright = {De Gruyter expressly reserves the right to use all content for commercial text and data mining within the meaning of Section 44b of the German Copyright Act.},
	issn = {1865-8423},
	shorttitle = {Digital {Object} {Identifier} ({DOI}) and {DOI} {Services}},
	url = {https://www.degruyter.com/document/doi/10.1515/libri-2020-0018/html},
	doi = {10.1515/libri-2020-0018},
	abstract = {In the establishing anniversary of the two biggest Digital Object Identifier (DOI) registration agencies all over the world, Crossref and DataCite, the paper intends to provide an overview of the development and approaches and of DOI and DOI services, from which scholarly communication has benefited greatly. At first, the author explores the initiation of DOI and differences of DOI from other persistent identifiers. After that, DOIs for different kinds of objects and DOIs’ value in enhancing scholarly communication is discussed; then, in the second part, DOI services at different levels in a pyramid and those particularly in Germany are described. The active involvement of the library world are also introduced here; finally, the current situation and prospects as well as some issues dealing with DOIs and DOI services are investigated in the last part of the paper.},
	language = {en},
	number = {4},
	urldate = {2024-06-25},
	journal = {Libri},
	author = {Liu, Jia},
	month = dec,
	year = {2021},
	note = {Publisher: De Gruyter Saur},
	keywords = {notion, Digital Object Identifier (DOI), Persistent Identifier (PI), scholarly communication},
	pages = {349--360},
	file = {10.1515_libri-2020-0018.pdf:B\:\\Zotero\\storage\\ZP358WK4\\10.1515_libri-2020-0018.pdf:application/pdf;Full Text PDF:B\:\\Zotero\\storage\\GET46LUD\\Liu - 2021 - Digital Object Identifier (DOI) and DOI Services .pdf:application/pdf},
}

@misc{noauthor_web_nodate,
	title = {Web of {Science} platform},
	url = {https://clarivate.com/products/scientific-and-academic-research/research-discovery-and-workflow-solutions/webofscience-platform/},
	language = {en},
	urldate = {2024-06-25},
	journal = {Clarivate},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\4ME86TCX\\webofscience-platform.html:text/html},
}

@article{warner_transformation_2005,
	title = {The transformation of scholarly communication},
	volume = {18},
	copyright = {© 2005 The Author},
	issn = {1741-4857},
	url = {https://onlinelibrary.wiley.com/doi/abs/10.1087/0953151054636156},
	doi = {10.1087/0953151054636156},
	abstract = {Recent debate on the reform of scholarly communication has focused on access issues. Although important, access is only one dimension in which the scholarly process can be transformed. Scholars are embracing highly collaborative and data-intensive standards of practice influenced by powerful computing and network technologies. This dramatic transformation of scholarship demands a natively digital, network-based scholarly communication system that is able to capture the scholarly record, make it accessible, and preserve it over time. I will offer a technological perspective on how these demands might be met.},
	language = {en},
	number = {3},
	urldate = {2024-06-25},
	journal = {Learned Publishing},
	author = {Warner, Simeon},
	year = {2005},
	note = {\_eprint: https://onlinelibrary.wiley.com/doi/pdf/10.1087/0953151054636156},
	keywords = {notion},
	pages = {177--185},
	file = {Full Text PDF:B\:\\Zotero\\storage\\66SP84JU\\Warner - 2005 - The transformation of scholarly communication.pdf:application/pdf;Snapshot:B\:\\Zotero\\storage\\W7BZN4EI\\0953151054636156.html:text/html},
}

@misc{noauthor_persistent_2024,
	title = {Persistent identifier},
	copyright = {Creative Commons Attribution-ShareAlike License},
	url = {https://en.wikipedia.org/w/index.php?title=Persistent_identifier&oldid=1214160601},
	abstract = {A persistent identifier (PI or PID) is a long-lasting reference to a document, file, web page, or other object.
The term "persistent identifier" is usually used in the context of digital objects that are accessible over the Internet. Typically, such an identifier is not only persistent but actionable: you can plug it into a web browser and be taken to the identified source.
Of course, the issue of persistent identification predates the Internet. Over centuries, writers and scholars developed standards for citation of paper-based documents so that readers could reliably and efficiently find a source that a writer mentioned in a footnote or bibliography. After the Internet started to become an important source of information in the 1990s, the issue of citation standards became important in the online world as well. Studies have shown that within a few years of being cited, a significant percentage of web addresses go "dead", a process often called link rot. Using a persistent identifier can slow or stop this process.
An important aspect of persistent identifiers is that "persistence is purely a matter of service". That means that persistent identifiers are only persistent to the degree that someone commits to resolving them for users. No identifier can be inherently persistent, however many persistent identifiers are created within institutionally administered systems with the aim to maximise longevity.
However, some regular URLs (i.e. web addresses), maintained by the website owner, are intended to be long-lasting; these are often called permalinks.},
	language = {en},
	urldate = {2024-06-25},
	journal = {Wikipedia},
	month = mar,
	year = {2024},
	note = {Page Version ID: 1214160601},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\BXYRPARX\\Persistent_identifier.html:text/html},
}

@inproceedings{wannenwetsch_constructing_2016,
	title = {On {Constructing} {Persistent} {Identifiers} with {Persistent} {Resolution} {Targets}},
	url = {https://fedcsis.org/proceedings/2016/drp/87.html},
	doi = {10.15439/2016F87},
	abstract = {Persistent Identifiers (PID) are the foundation referencing digital assets in scientific publications, books, and digital repositories. In its realization, PIDs contain metadata and resolving targets in form of URLs that point to data sets located on the network. In contrast to PIDs, the target URLs are typically changing over time; thus, PIDs need continuous maintenance – an effort that is increasing tremendously with the advancement of e-Science and the advent of the Internetof-Things (IoT). Nowadays, billions of sensors and data sets are subject of PID assignment. This paper presents a new approach of embedding location independent targets into PIDs that allows the creation of maintenance-free PIDs using content-centric network technology and overlay networks. For proving the validity of the presented approach, the Handle PID System is used in conjunction with Magnet Link access information encoding, stateof-the-art decentralized data distribution with BitTorrent, and Named Data Networking (NDN) as location-independent data access technology for networks. Contrasting existing approaches, no green-field implementation of PID or major modifications of the Handle System is required to enable location-independent data dissemination with maintenance-free PIDs.},
	language = {en},
	urldate = {2024-06-25},
	author = {Wannenwetsch, Oliver and Majchrzak, Tim Alexander},
	month = oct,
	year = {2016},
	keywords = {notion},
	pages = {1031--1040},
	file = {Wannenwetsch und Majchrzak - 2016 - On Constructing Persistent Identifiers with Persis.pdf:B\:\\Zotero\\storage\\4GS7JZNX\\Wannenwetsch und Majchrzak - 2016 - On Constructing Persistent Identifiers with Persis.pdf:application/pdf},
}

@article{zhu_doi_2019,
	title = {{DOI} errors and possible solutions for {Web} of {Science}},
	volume = {118},
	issn = {1588-2861},
	url = {https://doi.org/10.1007/s11192-018-2980-7},
	doi = {10.1007/s11192-018-2980-7},
	abstract = {As unique and permanent alphanumeric strings to identify objects, digital object identifier (DOI) has been increasingly used to identify academic publications. Previous studies have reported the incorrect assignment of a single DOI name to multiple papers in the Scopus database, yet it remains unknown if this also holds in other datasets. In this paper we found incorrect DOI names are also problematic in the Web of Science but with different errors of duplicate DOI names. Tentative solutions are proposed in the end.},
	language = {en},
	number = {2},
	urldate = {2024-06-25},
	journal = {Scientometrics},
	author = {Zhu, Junwen and Hu, Guangyuan and Liu, Weishu},
	month = feb,
	year = {2019},
	keywords = {notion, Bibliometric database, Database errors, Digital object identifier, Solution},
	pages = {709--718},
	file = {Full Text PDF:B\:\\Zotero\\storage\\AYJZ88R2\\Zhu et al. - 2019 - DOI errors and possible solutions for Web of Scien.pdf:application/pdf},
}

@article{fenner_data_2019,
	title = {A data citation roadmap for scholarly data repositories},
	volume = {6},
	copyright = {2019 The Author(s)},
	issn = {2052-4463},
	url = {https://www.nature.com/articles/s41597-019-0031-8},
	doi = {10.1038/s41597-019-0031-8},
	abstract = {This article presents a practical roadmap for scholarly data repositories to implement data citation in accordance with the Joint Declaration of Data Citation Principles, a synopsis and harmonization of the recommendations of major science policy bodies. The roadmap was developed by the Repositories Expert Group, as part of the Data Citation Implementation Pilot (DCIP) project, an initiative of FORCE11.org and the NIH-funded BioCADDIE (https://biocaddie.org) project. The roadmap makes 11 specific recommendations, grouped into three phases of implementation: a) required steps needed to support the Joint Declaration of Data Citation Principles, b) recommended steps that facilitate article/data publication workflows, and c) optional steps that further improve data citation support provided by data repositories. We describe the early adoption of these recommendations 18 months after they have first been published, looking specifically at implementations of machine-readable metadata on dataset landing pages.},
	language = {en},
	number = {1},
	urldate = {2024-06-25},
	journal = {Scientific Data},
	author = {Fenner, Martin and Crosas, Mercè and Grethe, Jeffrey S. and Kennedy, David and Hermjakob, Henning and Rocca-Serra, Phillippe and Durand, Gustavo and Berjon, Robin and Karcher, Sebastian and Martone, Maryann and Clark, Tim},
	month = apr,
	year = {2019},
	note = {Publisher: Nature Publishing Group},
	keywords = {notion, Computational platforms and environments, Data publication and archiving, Databases},
	pages = {28},
	file = {Full Text PDF:B\:\\Zotero\\storage\\RM9YYJV8\\Fenner et al. - 2019 - A data citation roadmap for scholarly data reposit.pdf:application/pdf},
}

@misc{noauthor_f1_nodate,
	title = {F1: ({Meta}) data are assigned globally unique and persistent identifiers},
	shorttitle = {F1},
	url = {https://www.go-fair.org/fair-principles/f1-meta-data-assigned-globally-unique-persistent-identifiers/},
	abstract = {What does this mean? Principle F1 is arguably the most important because it will be hard to achieve other aspects of FAIR without globally unique and persistent identifiers. Hence, compliance with F1 will already take you a long way towards… Continue reading →},
	language = {en},
	urldate = {2024-06-25},
	journal = {GO FAIR},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\M8ECFUDF\\f1-meta-data-assigned-globally-unique-persistent-identifiers.html:text/html},
}

@article{rosenblatt_digital_1997-1,
	title = {The {Digital} {Object} {Identifier}: {Solving} the {Dilemma} of {Copyright} {Protection} {Online}},
	volume = {3},
	issn = {1080-2711},
	shorttitle = {The {Digital} {Object} {Identifier}},
	url = {https://doi.org/10.3998/3336451.0003.204},
	doi = {10.3998/3336451.0003.204},
	language = {en},
	number = {2},
	urldate = {2024-06-25},
	journal = {Journal of Electronic Publishing},
	author = {Rosenblatt, Bill},
	month = dec,
	year = {1997},
	note = {Publisher: Michigan Publishing, University of Michigan Library},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\THDFDC24\\3336451.0003.html:text/html},
}

@incollection{santos_towards_2023,
	title = {Towards a conceptual model for the {FAIR} {Digital} {Object} {Framework}},
	url = {http://arxiv.org/abs/2302.11894},
	abstract = {The FAIR principles define a number of expected behaviours for the data and services ecosystem with the goal of improving the findability, accessibility, interoperability, and reusability of digital objects. A key aspiration of the principles is that they would lead to a scenario where autonomous computational agents are capable of performing a ``self-guided exploration of the global data ecosystem,'' and act properly with the encountered variety of types, formats, access mechanisms and protocols. The lack of support for some of these expected behaviours by current information infrastructures such as the internet and the World Wide Web motivated the emergence, in the last years, of initiatives such as the FAIR Digital Objects (FDOs) movement. This movement aims at an infrastructure where digital objects can be exposed and explored according to the FAIR principles. In this paper, we report the current status of the work towards an ontology-driven conceptual model for FAIR Digital Objects. The conceptual model covers aspects of digital objects that are relevant to the FAIR principles such as the distinction between metadata and the digital object it describes, the classification of digital objects in terms of both their informational value and their computational representation format, and the relation between different types of FAIR Digital Objects.},
	urldate = {2024-06-25},
	author = {Santos, Luiz Olavo Bonino da Silva and Sales, Tiago Prince and Fonseca, Claudenir M. and Guizzardi, Giancarlo},
	month = dec,
	year = {2023},
	doi = {10.3233/FAIA231131},
	note = {arXiv:2302.11894 [cs]},
	keywords = {notion, Computer Science - Computers and Society},
	file = {arXiv Fulltext PDF:B\:\\Zotero\\storage\\SVBJIFYP\\Santos et al. - 2023 - Towards a conceptual model for the FAIR Digital Ob.pdf:application/pdf;arXiv.org Snapshot:B\:\\Zotero\\storage\\XWK4KW4U\\2302.html:text/html},
}

@article{jones_digital_2024-1,
	title = {Digital {History}},
	volume = {55},
	issn = {1031-461X},
	url = {https://doi.org/10.1080/1031461X.2023.2267586},
	doi = {10.1080/1031461X.2023.2267586},
	abstract = {Digital history started to flourish in Australia and New Zealand in the 2000s and early 2010s. But some of this momentum has since been lost due to ageing technologies, a lack of supporting infrastructure, funding issues, discontinued projects, and limited teaching and training opportunities. This ‘state of the field’ article on digital history seeks to encourage greater reflexivity in the discipline by providing a detailed overview of the local context. It highlights some of the longstanding projects that continue to dominate the digital history landscape, while also exploring newly emerging innovations, opportunities and challenges. Examining such topics as infrastructure and tool development, digital archives and repositories, big history, public history, digital methods, and teaching, the authors conclude that additional investment is required to support progress in the field, and to ensure that past projects and data remain accessible into the future.},
	number = {1},
	urldate = {2024-06-25},
	journal = {Australian Historical Studies},
	author = {Jones, Mike and Piper, Alana},
	month = jan,
	year = {2024},
	note = {Publisher: Routledge
\_eprint: https://doi.org/10.1080/1031461X.2023.2267586},
	keywords = {notion},
	pages = {178--203},
	file = {Full Text PDF:B\:\\Zotero\\storage\\QCWZ9JJQ\\Jones und Piper - 2024 - Digital History.pdf:application/pdf},
}

@article{noauthor_interchange_2008,
	title = {Interchange: {The} {Promise} of {Digital} {History}},
	volume = {95},
	issn = {0021-8723},
	shorttitle = {Interchange},
	url = {https://doi.org/10.2307/25095630},
	doi = {10.2307/25095630},
	abstract = {This “Interchange” discussion took place online over the course of several months in the winter of 2008. We wanted the “Interchange” to be free flowing; therefore we encouraged participants not only to respond to questions posed by the JAH but also to communicate with each other directly. What follows is an edited version of the very lively online conversation that resulted. We hope JAH readers find it of interest.The JAH is indebted to all of the participants for their willingness to enter into an online conversation:},
	number = {2},
	urldate = {2024-06-25},
	journal = {Journal of American History},
	month = sep,
	year = {2008},
	keywords = {notion},
	pages = {452--491},
	file = {Full Text PDF:B\:\\Zotero\\storage\\XUGQLMDZ\\2008 - Interchange The Promise of Digital History.pdf:application/pdf;Snapshot:B\:\\Zotero\\storage\\VRY8ERWJ\\707613.html:text/html},
}

@misc{turkel_digital_2011,
	title = {Digital {History} {Hacks} (2005-08): {GitHub} {Source} {Code} {Repository}},
	shorttitle = {Digital {History} {Hacks} (2005-08)},
	url = {https://digitalhistoryhacks.blogspot.com/2011/02/github-source-code-repository.html},
	urldate = {2024-06-25},
	journal = {Digital History Hacks (2005-08)},
	author = {Turkel, William J.},
	month = feb,
	year = {2011},
	keywords = {notion},
	file = {Blogspot Snapshot:B\:\\Zotero\\storage\\PPX84FTK\\github-source-code-repository.html:text/html},
}

@misc{turkel_digital_2008,
	title = {Digital {History} {Hacks} (2005-08): {Some} {Winter} {Reading} for {Humanist} {Makers}},
	shorttitle = {Digital {History} {Hacks} (2005-08)},
	url = {https://digitalhistoryhacks.blogspot.com/2008/12/some-winter-reading-for-humanist-makers.html},
	urldate = {2024-06-25},
	journal = {Digital History Hacks (2005-08)},
	author = {Turkel, William J.},
	month = dec,
	year = {2008},
	keywords = {notion},
	file = {Blogspot Snapshot:B\:\\Zotero\\storage\\D7NUU8DM\\some-winter-reading-for-humanist-makers.html:text/html},
}

@misc{noauthor_digital_nodate,
	title = {Digital {History}: {A} {Guide} to {Gathering}, {Preserving}, and {Presenting} the {Past} on the {Web}},
	url = {https://chnm.gmu.edu/digitalhistory/},
	urldate = {2024-06-25},
	keywords = {notion},
	file = {Digital History\: A Guide to Gathering, Preserving, and Presenting the Past on the Web:B\:\\Zotero\\storage\\IVVAPNJ3\\digitalhistory.html:text/html},
}

@article{lappalainen_harvesting_2023,
	title = {Harvesting publication data to the institutional repository from {Scopus}, {Web} of {Science}, {Dimensions} and {Unpaywall} using a custom {R} {Script}},
	volume = {49},
	issn = {0099-1333},
	url = {https://www.sciencedirect.com/science/article/pii/S0099133322001690},
	doi = {10.1016/j.acalib.2022.102653},
	abstract = {Institutional repositories are established tools for archiving and increasing the visibility and availability of academic outputs. Although the potential benefits of institutional repositories are well researched and many funders and institutions already mandate open access publishing via gold or green open access routes, institutional repositories often struggle with lack of growth and sustained workflows for content recruitment. Institutions have come up with various (and often creative) workflows for populating their repositories, including institutional open access mandates, library-mediated self-archiving, fully or partially automated content harvesting and integrations between repositories and Current Research Information Systems (CRIS). Zayed University launched the ZU Scholars11https://zuscholars.zu.ac.ae institutional repository in fall 2021. Since the beginning, a semi-automated workflow was introduced to populate the repository with publication data from Scopus, Web of Science, Dimensions and Unpaywall using a custom R script. Full text files are added automatically for all Creative Commons licensed articles. This article describes the data harvesting and conversion process, its current limitations and plans for future development. The article also reviews similar content harvesting projects in the context of institutional repositories.},
	number = {1},
	urldate = {2024-06-25},
	journal = {The Journal of Academic Librarianship},
	author = {Lappalainen, Yrjo and Narayanan, Nikesh},
	month = jan,
	year = {2023},
	keywords = {Metadata, Institutional repositories, notion, Content harvesting, Open access, R programming language, Unpaywall, Workflow automation},
	pages = {102653},
	file = {Lappalainen und Narayanan - 2023 - Harvesting publication data to the institutional r.pdf:B\:\\Zotero\\storage\\T5DLQFZJ\\Lappalainen und Narayanan - 2023 - Harvesting publication data to the institutional r.pdf:application/pdf;ScienceDirect Snapshot:B\:\\Zotero\\storage\\5PKHY8BJ\\S0099133322001690.html:text/html},
}

@article{asadi_understanding_2019,
	title = {Understanding {Institutional} {Repository} in {Higher} {Learning} {Institutions}: {A} {Systematic} {Literature} {Review} and {Directions} for {Future} {Research}},
	volume = {7},
	issn = {2169-3536},
	shorttitle = {Understanding {Institutional} {Repository} in {Higher} {Learning} {Institutions}},
	url = {https://ieeexplore.ieee.org/document/8635464},
	doi = {10.1109/ACCESS.2019.2897729},
	abstract = {Institutional repositories (IRs) have received considerable attention from researchers across disciplines and around the globe. They have potentially increased the public value, ranking, prestige, and visibility of researchers, and relevant universities. However, despite the important and rapid growth of research in this area, few efforts have been made to systematically review and integrate the findings from previous research studies or to examine the current state of study regarding IRs. The primary goal of this paper is to provide a better understanding and an in-depth review of the current state of study regarding IRs. This research uses a systematic literature review (SLR) and followed a protocol to properly organize the work related to institutional repositories. The data were collected from primary studies published from 2007 to 2018 from the six major databases (ScienceDirect, IEEE Explorer, Springer, ACM, Taylor and Francis, and Emerald insight). Several papers regarding IRs were reviewed, applying inclusion and exclusion criteria, and a total of 115 studies were included as the main part of this research. The results obtained from these studies indicated that the absence of knowledge of open access IRs among scholars and institutions and inadequate information and communication technology infrastructure were significant challenges behind the development of open access IRs. Meanwhile, enhanced visibility of the academic institution, increased local and global rankings, increased prestige and public value, and improved teaching, learning, and research development by the scholars of the institution were found to be the main benefits of institutional repositories. This paper also highlighted that most of the studies in this research area were focused on the ”deployment, implementation, and adoption” and ”benefits and challenges” of institutional repositories. The outcomes of this paper can assist future researchers by providing a roadmap of institutional repositories and highlighting guidelines for successful implementation of IRs in higher learning institutions.},
	urldate = {2024-06-25},
	journal = {IEEE Access},
	author = {Asadi, Shahla and Abdullah, Rusli and Yah, Yusmadi and Nazir, Shah},
	year = {2019},
	note = {Conference Name: IEEE Access},
	keywords = {Institutional repositories, university, notion, Bibliographies, Data mining, Education, IRs, Open Access, Protocols, Software, systematic literature review, Systematics},
	pages = {35242--35263},
	file = {IEEE Xplore Abstract Record:B\:\\Zotero\\storage\\SA57PQSF\\8635464.html:text/html;IEEE Xplore Full Text PDF:B\:\\Zotero\\storage\\DUXDU3E4\\Asadi et al. - 2019 - Understanding Institutional Repository in Higher L.pdf:application/pdf},
}

@article{mazov_open_2023,
	title = {Open {Access} {Bibliographic} {Resources} for {Maintaining} a {Bibliographic} {Database} of {Research} {Organization}},
	volume = {50},
	issn = {1934-8118},
	url = {https://doi.org/10.3103/S0147688223030115},
	doi = {10.3103/S0147688223030115},
	abstract = {Appealing to external bibliographic systems is an inevitable stage when organizing in-house resources in research libraries and information services. On the one hand, data from external sources can be widely used when working with institutional repositories, e.g., at the stage of searching for data on the organization’s papers, creating alerts for new entries or exporting data using appropriate formats to cut the time for bibliographic metadata processing. On the other hand, the most complete data from in-house databases can be used for data correction in external bibliographic systems to increase data accuracy in the organization’s publication profiles and enhancing the visibility of bibliographic information for the scientific community. During this time of open science, the use of open access bibliographic systems is becoming more promising, especially in the light of expensiveness and other problems with access to commercial bibliographic products. The paper draws on a set of papers of one of the Russian Academy of Sciences organizations to demonstrate the facilities of open access bibliographic resources when working with institutional repository. We compare the previously used commercial systems Web of Science and Scopus with the open access Russian Science Citation Index, Dimensions, and Lens with regard to coverage of organizations’ papers, as well as external databases’ appropriateness for library technological processes.},
	language = {en},
	number = {3},
	urldate = {2024-06-25},
	journal = {Scientific and Technical Information Processing},
	author = {Mazov, N. A. and Gureyev, V. N.},
	month = sep,
	year = {2023},
	keywords = {notion, bibliographic database, Dimensions, institutional repository, Lens, RSCI, scholarly output, scientific communication, Scopus, Web of Science},
	pages = {211--223},
	file = {Full Text PDF:B\:\\Zotero\\storage\\4M3F4XUH\\Mazov und Gureyev - 2023 - Open Access Bibliographic Resources for Maintainin.pdf:application/pdf},
}

@article{lake_growing_2024,
	title = {Growing an {Institutional} {Repository}: {Leveraging} a {Citation} {Database} as a {Tool} for {Sourcing} {Deposits} and {Conducting} {Outreach}},
	volume = {68},
	copyright = {Copyright (c) 2024 American Library Association},
	issn = {2159-9610},
	shorttitle = {Growing an {Institutional} {Repository}},
	url = {https://journals.ala.org/index.php/lrts/article/view/8217},
	doi = {10.5860/lrts.68n1.8217},
	abstract = {Many institutional repositories continue to struggle with low engagement. A combination of factors is often at play, including overburdened faculty, confusion about copyright, and lack of awareness. Adding to these barriers on the researcher side are resource constraints on the administrative side, with many libraries citing limitations in budget and staffing for institutional repositories.  Atkins Library at the University of North Carolina at Charlotte sought to address these issues by strategically leveraging citation and copyright information that already existed in Web of Science to grow their institutional repository, Niner Commons. Keeping user needs and staff limitations top of mind, Atkins Library launched a project to reframe the approach to increasing participation with the repository: instead of continuing to expect users to deposit works on their own, the library developed a service in which staff could quickly and sustainably deposit works on behalf of users.},
	language = {en},
	number = {1-2},
	urldate = {2024-06-25},
	journal = {Library Resources \& Technical Services},
	author = {Lake, Savannah and Regenauer, Stephannie},
	month = apr,
	year = {2024},
	note = {Number: 1-2},
	keywords = {notion},
	file = {Full Text PDF:B\:\\Zotero\\storage\\IQXKI9QV\\Lake und Regenauer - 2024 - Growing an Institutional Repository Leveraging a .pdf:application/pdf},
}

@misc{noauthor_notitle_nodate,
	keywords = {notion},
}

@misc{noauthor_semantic_nodate,
	title = {semantic web, n. meanings, etymology and more {\textbar} {Oxford} {English} {Dictionary}},
	url = {https://www.oed.com/dictionary/semantic-web_n},
	abstract = {semantic web, n. meanings, etymology, pronunciation and more in the Oxford English Dictionary},
	language = {en},
	urldate = {2024-06-25},
	note = {Oxford English Dictionary, s.v. “semantic web (n.),” December 2023, https://doi.org/10.1093/OED/3580174040.},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\PPSNSVR3\\semantic-web_n.html:text/html},
}

@incollection{noauthor_artificial_2023,
	edition = {3},
	title = {artificial intelligence, n.},
	url = {https://oed.com/dictionary/artificial-intelligence_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/3194963277},
	keywords = {notion},
}

@incollection{noauthor_narrative_2023,
	edition = {3},
	title = {narrative, n.},
	url = {https://oed.com/dictionary/narrative_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/3575296173},
	keywords = {notion},
}

@incollection{noauthor_information_2023,
	edition = {3},
	title = {information science, n.},
	url = {https://oed.com/dictionary/information-science_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/1174714574},
	keywords = {notion},
}

@incollection{noauthor_digital_2023,
	edition = {3},
	title = {digital, n. \& adj.},
	url = {https://oed.com/dictionary/digital_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = nov,
	year = {2023},
	doi = {10.1093/OED/1297556308},
	keywords = {notion},
}

@incollection{noauthor_book_2023,
	edition = {3},
	title = {book, n.},
	url = {https://oed.com/dictionary/book_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/2007612481},
	keywords = {notion},
}

@incollection{noauthor_computational_2023,
	edition = {3},
	title = {computational, adj.},
	url = {https://oed.com/dictionary/computational_adj},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/1199269365},
	keywords = {notion},
}

@incollection{noauthor_repository_2023,
	edition = {3},
	title = {repository, n.},
	url = {https://oed.com/dictionary/repository_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/2964548479},
	keywords = {notion},
}

@incollection{noauthor_executable_2023,
	edition = {3},
	title = {executable, adj.},
	url = {https://oed.com/dictionary/executable_adj},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/5431350273},
	keywords = {notion},
}

@incollection{noauthor_open_2023-1,
	edition = {3},
	title = {open access, n. \& adj.},
	url = {https://oed.com/dictionary/open-access_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/8021878137},
	keywords = {notion},
}

@incollection{noauthor_information_2023-1,
	edition = {3},
	title = {information, n.},
	url = {https://oed.com/dictionary/information_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/2626286341},
	keywords = {notion},
}

@incollection{noauthor_bibliography_2024,
	edition = {3},
	title = {bibliography, n.},
	url = {https://oed.com/dictionary/bibliography_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = feb,
	year = {2024},
	doi = {10.1093/OED/8048418120},
	keywords = {notion},
}

@incollection{noauthor_browser_2023,
	edition = {3},
	title = {browser, n.},
	url = {https://oed.com/dictionary/browser_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/8377867720},
	keywords = {notion},
}

@incollection{noauthor_world_2023,
	edition = {3},
	title = {World {Wide} {Web}, n.},
	url = {https://oed.com/dictionary/world-wide-web_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/9887854441},
	keywords = {notion},
}

@misc{noauthor_no_nodate,
	title = {[{No} title found]},
	keywords = {notion},
}

@misc{noauthor_original_nodate,
	title = {The original proposal of the {WWW}, {HTMLized}},
	url = {https://www.w3.org/History/1989/proposal.html},
	urldate = {2024-06-25},
	keywords = {notion},
	file = {The original proposal of the WWW, HTMLized:B\:\\Zotero\\storage\\X5NN5C5T\\proposal.html:text/html},
}

@inproceedings{nelson_complex_1965,
	address = {Cleveland, Ohio, United States},
	title = {Complex information processing: a file structure for the complex, the changing and the indeterminate},
	shorttitle = {Complex information processing},
	url = {http://portal.acm.org/citation.cfm?doid=800197.806036},
	doi = {10.1145/800197.806036},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Proceedings of the 1965 20th national conference on   -},
	publisher = {ACM Press},
	author = {Nelson, T. H.},
	year = {1965},
	keywords = {notion},
	pages = {84--100},
	file = {Volltext:B\:\\Zotero\\storage\\RP9QPKBJ\\Nelson - 1965 - Complex information processing a file structure f.pdf:application/pdf},
}

@inproceedings{bernstein_hypertext_2009,
	address = {New York, NY, USA},
	series = {{HT} '09},
	title = {On hypertext narrative},
	isbn = {978-1-60558-486-7},
	url = {https://doi.org/10.1145/1557914.1557920},
	doi = {10.1145/1557914.1557920},
	abstract = {Annals and chronicles may be the foundation of accounting, but writers of stories and histories have long known that they seldom render a satisfactory account of complex events. In place of a simple chronological list, narrative instead organizes our account in new sequences in order to illuminate the interplay of actors and events. We want hypertext narrative to do things we cannot achieve in print; though we may occasionally use links to introduce variation in presentation or in story; it is now clear that hypertext will most frequently prove useful in changing (or adapting) plot. After discussing the ways in which plot may be varied, I describe the use of stretchtext as a reaction against the perceived incoherence of classic hypertext narrative, demonstrate the limitations that conventional stretchtext necessarily imposes on hypertext narrative, and describe an implemented generalization of stretchtext that matches the expressive and formal capabilities of classical hypertext systems while appearing to be a mere stretchtext and while running within the confines of a Web browser.},
	urldate = {2024-06-25},
	booktitle = {Proceedings of the 20th {ACM} conference on {Hypertext} and hypermedia},
	publisher = {Association for Computing Machinery},
	author = {Bernstein, Mark},
	month = jun,
	year = {2009},
	keywords = {notion},
	pages = {5--14},
}

@book{krameritsch_geschichten_2007,
	address = {Münster},
	series = {Medien in der {Wissenschaft}},
	title = {Geschichte(n) im {Netzwerk}: {Hypertext} und dessen {Potenziale} für die {Produktion}, {Repräsentation} und {Rezeption} der historischen {Erzählung}},
	isbn = {978-3-8309-1835-6},
	shorttitle = {Geschichte(n) im {Netzwerk}},
	language = {de},
	number = {Band 43},
	publisher = {Waxmann},
	author = {Krameritsch, Jakob},
	year = {2007},
	keywords = {notion},
	file = {Krameritsch - 2007 - Geschichte(n) im Netzwerk Hypertext und dessen Po.pdf:B\:\\Zotero\\storage\\R8R97NKN\\Krameritsch - 2007 - Geschichte(n) im Netzwerk Hypertext und dessen Po.pdf:application/pdf},
}

@incollection{lobin_intelligente_1999,
	title = {Intelligente {Dokumente}. {Linguistische} {Repräsentation} komplexer {Inhalte} für die hypermediale {Wissensvermittlung}},
	copyright = {https://rightsstatements.org/page/InC/1.0/},
	isbn = {978-3-531-13248-8},
	url = {https://ids-pub.bsz-bw.de/frontdoor/index/index/docId/7630},
	language = {deu},
	urldate = {2024-06-25},
	booktitle = {Text im digitalen {Medium}. {Linguistische} {Aspekte} von {Textdesign}, {Texttechnologie} und {Hypertext} {Engineering}},
	publisher = {Westdeutscher Verlag},
	author = {Lobin, Henning},
	year = {1999},
	keywords = {notion},
	pages = {155--177},
	file = {Full Text PDF:B\:\\Zotero\\storage\\KGE6JAXJ\\Lobin - 1999 - Intelligente Dokumente. Linguistische Repräsentati.pdf:application/pdf},
}

@book{wachter_geschichte_2021,
	address = {Bielefeld, Germany},
	edition = {1},
	series = {Geschichtstheorie},
	title = {Geschichte digital schreiben: {Hypertext} als non-lineare {Wissensrepräsentation} in der {Digital} {History}},
	volume = {2},
	copyright = {https://creativecommons.org/licenses/by/4.0/},
	isbn = {978-3-8376-5801-9 978-3-8394-5801-3},
	shorttitle = {Geschichte digital schreiben},
	url = {https://www.transcript-open.de/isbn/5801},
	abstract = {Geschichte als nicht-linearen Verlauf aufzufassen heißt, historische Zusammenhänge in all ihrer Komplexität auszudrücken. Dabei stoßen wir mit gedruckten Texten an Grenzen. Christian Wachter zeigt: Digitaler Hypertext hingegen erweist sich als konstruktive Erweiterung für die Erkenntnisvermittlung - non-linear gedachte Zusammenhänge werden mit einem non-linearen Medium explizit repräsentiert. Entgegen einem netzwerkartigen Schreiben drängen sich multilinear angelegte und visualisierte Erzählpfade auf, die den narrativen und argumentativen Aufbau der Wissensangebote abbilden. Sie vermitteln dadurch epistemisch Wesentliches.},
	language = {de},
	urldate = {2024-06-25},
	publisher = {transcript Verlag},
	author = {Wachter, Christian},
	month = sep,
	year = {2021},
	doi = {10.14361/9783839458013},
	keywords = {notion},
	file = {Wachter - 2021 - Geschichte digital schreiben Hypertext als non-li.pdf:B\:\\Zotero\\storage\\YYZ7CYW2\\Wachter - 2021 - Geschichte digital schreiben Hypertext als non-li.pdf:application/pdf},
}

@misc{noauthor_latex_nodate,
	title = {{LaTeX} - {A} document preparation system},
	url = {https://www.latex-project.org/},
	urldate = {2024-06-25},
	keywords = {notion},
	file = {LaTeX - A document preparation system:B\:\\Zotero\\storage\\FLWZGKR5\\www.latex-project.org.html:text/html},
}

@misc{noauthor_project_nodate,
	title = {Project {Jupyter}},
	url = {https://jupyter.org},
	abstract = {The Jupyter Notebook is a web-based interactive computing platform. The notebook combines live code, equations, narrative text, visualizations, interactive dashboards and other media.},
	language = {en},
	urldate = {2024-06-25},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\KUWG6ZRX\\jupyter.org.html:text/html},
}

@misc{noauthor_executable_nodate,
	title = {The {Executable} {Books} {Project}},
	url = {https://executablebooks.org/en/latest/},
	abstract = {This is the team documentation for the ExecutableBooksProject, an international collaboration to build open source tools that facilitate publishing computational narratives using the Jupyter ecosys...},
	language = {en},
	urldate = {2024-06-25},
	journal = {Executable Book Project},
	keywords = {notion},
}

@misc{noauthor_sphinx_nodate,
	title = {Sphinx — {Sphinx} documentation},
	url = {https://www.sphinx-doc.org/en/master/},
	urldate = {2024-06-25},
	keywords = {notion},
	file = {Sphinx — Sphinx documentation:B\:\\Zotero\\storage\\NZCCDAHE\\master.html:text/html},
}

@misc{noauthor_jupyter_nodate,
	title = {Jupyter and the future of {IPython} — {IPython}},
	url = {https://ipython.org/},
	urldate = {2024-06-25},
	keywords = {notion},
	file = {Jupyter and the future of IPython — IPython:B\:\\Zotero\\storage\\VD3GAT8H\\ipython.org.html:text/html},
}

@misc{noauthor_binder_nodate,
	title = {The {Binder} {Project}},
	url = {https://mybinder.org/},
	abstract = {Reproducible, sharable, open, interactive computing environments.},
	language = {en},
	urldate = {2024-06-25},
	keywords = {notion},
}

@misc{inc_full_nodate,
	title = {Full featured documentation deployment platform},
	url = {https://about.readthedocs.com/?ref=readthedocs.com},
	abstract = {Read the Docs is a documentation building and hosting platform aimed at helping developers creating documentation from code with versioned documentation, integrated search, pull request previews and more.},
	language = {en},
	urldate = {2024-06-25},
	journal = {Read the Docs},
	author = {Inc, Read the Docs},
	keywords = {notion},
}

@misc{noauthor_numfocus_nodate,
	title = {{NumFOCUS}: {A} {Nonprofit} {Supporting} {Open} {Code} for {Better} {Science}},
	shorttitle = {{NumFOCUS}},
	url = {https://numfocus.org/},
	abstract = {NumFOCUS promotes open practices in research, data, and scientific computing. We run educational programs and fiscal sponsorship of open source projects.},
	language = {en},
	urldate = {2024-06-25},
	journal = {NumFOCUS},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\VMS367JH\\numfocus.org.html:text/html},
}

@misc{noauthor_anaconda_nodate,
	title = {Anaconda {\textbar} {The} {Operating} {System} for {AI}},
	url = {https://www.anaconda.com/},
	abstract = {Democratize AI innovation with the world’s most trusted open ecosystem for data science and AI development.},
	language = {en},
	urldate = {2024-06-25},
	journal = {Anaconda},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\DRIGUBYQ\\www.anaconda.com.html:text/html},
}

@misc{noauthor_docker_2022,
	title = {Docker: {Accelerated} {Container} {Application} {Development}},
	shorttitle = {Docker},
	url = {https://www.docker.com/},
	abstract = {Docker is a platform designed to help developers build, share, and run container applications. We handle the tedious setup, so you can focus on the code.},
	language = {en},
	urldate = {2024-06-25},
	month = may,
	year = {2022},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\A2BVPXZ2\\www.docker.com.html:text/html},
}

@techreport{noauthor_council_2022,
	title = {Council {Recommendation} ({EU}) 2022/2415 of 2 {December} 2022 on the guiding principles for knowledge valorisation},
	url = {http://data.europa.eu/eli/reco/2022/2415/oj/eng},
	language = {en},
	urldate = {2024-06-25},
	month = dec,
	year = {2022},
	note = {Code Number: 317
Code: OJ L
Legislative Body: CONSIL},
	keywords = {notion},
	file = {EUR-Lex HTML (EN):B\:\\Zotero\\storage\\VG2F3BZT\\HTML.html:text/html;EUR-Lex PDF (EN):B\:\\Zotero\\storage\\UXUZEAFK\\2022 - Council Recommendation (EU) 20222415 of 2 Decembe.pdf:application/pdf},
}

@techreport{noauthor_commission_2023,
	title = {Commission {Recommendation} ({EU}) 2023/499 of 1 {March} 2023 on a {Code} of {Practice} on the management of intellectual assets for knowledge valorisation in the {European} {Research} {Area}},
	url = {http://data.europa.eu/eli/reco/2023/499/oj/eng},
	language = {en},
	urldate = {2024-06-25},
	month = mar,
	year = {2023},
	note = {Code Number: 069
Code: OJ L
Legislative Body: RTD, COM},
	keywords = {notion},
	file = {EUR-Lex HTML (EN):B\:\\Zotero\\storage\\LLJUUJMR\\HTML.html:text/html;EUR-Lex PDF (EN):B\:\\Zotero\\storage\\L7IDMA99\\2023 - Commission Recommendation (EU) 2023499 of 1 March.pdf:application/pdf},
}

@misc{noauthor_connecting_nodate,
	title = {Connecting {Tomorrow}},
	url = {https://swissnex.org/},
	abstract = {Connecting the world \& Switzerland in science, education, art, \& innovation.},
	language = {en},
	urldate = {2024-06-25},
	journal = {Swissnex},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\ERJIVWAL\\swissnex.org.html:text/html},
}

@incollection{noauthor_meme_2023,
	edition = {3},
	title = {meme, n.},
	url = {https://oed.com/dictionary/meme_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/1131059244},
	keywords = {notion},
}

@misc{noauthor_no_nodate-1,
	title = {[{No} title found]},
	keywords = {notion},
}

@incollection{noauthor_internet_2023,
	edition = {3},
	title = {internet, n.},
	url = {https://oed.com/dictionary/internet_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/7704712926},
	keywords = {notion},
}

@incollection{noauthor_hypertext_2023,
	edition = {3},
	title = {hypertext, n.},
	url = {https://oed.com/dictionary/hypertext_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/1015180257},
	keywords = {notion},
}

@incollection{noauthor_computer_2023,
	edition = {3},
	title = {computer, n.},
	url = {https://oed.com/dictionary/computer_n},
	language = {en},
	urldate = {2024-06-25},
	booktitle = {Oxford {English} {Dictionary}},
	publisher = {Oxford University Press},
	month = mar,
	year = {2023},
	doi = {10.1093/OED/9413010810},
	keywords = {notion},
}

@misc{noauthor_arxivorg_nodate,
	title = {{arXiv}.org e-{Print} archive},
	url = {https://arxiv.org/},
	urldate = {2024-06-25},
	keywords = {notion},
	file = {arXiv.org e-Print archive:B\:\\Zotero\\storage\\5Y4YS3BE\\arxiv.org.html:text/html},
}

@misc{noauthor_digital_nodate-1,
	title = {Digital {History} {\textbar} {Departement} {Geschichte} {\textbar} {Universität} {Basel}},
	url = {https://dg.philhist.unibas.ch/de/forschung/digital-history/},
	language = {en},
	urldate = {2024-06-25},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\APQ7BRL8\\digital-history.html:text/html},
}

@misc{noauthor_digital_2024,
	title = {Digital history},
	copyright = {Creative Commons Attribution-ShareAlike License},
	url = {https://en.wikipedia.org/w/index.php?title=Digital_history&oldid=1220662831},
	abstract = {Digital history is the use of digital media to further historical analysis, presentation, and research. It is a branch of the digital humanities and an extension of quantitative history, cliometrics, and computing. Digital history is commonly digital public history, concerned primarily with engaging online audiences with historical content, or, digital research methods, that further academic research. Digital history outputs include: digital archives, online presentations, data visualizations, interactive maps, timelines, audio files, and virtual worlds to make history more accessible to the user. Recent digital history projects focus on creativity, collaboration, and technical innovation, text mining, corpus linguistics, network analysis, 3D modeling, and big data analysis. By utilizing these resources, the user can rapidly develop new analyses that can link to, extend, and bring to life existing histories.},
	language = {en},
	urldate = {2024-06-25},
	journal = {Wikipedia},
	month = apr,
	year = {2024},
	note = {Page Version ID: 1220662831},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\ED6V8AN9\\Digital_history.html:text/html},
}

@misc{noauthor_digital_2024-1,
	title = {Digital {History} {Lab}{\textless}br{\textgreater}{Digitale} {Ressourcen} des {Historischen} {Instituts}},
	url = {https://www.hist.unibe.ch/ueber_uns/digital_history_lab/index_ger.html},
	language = {ger},
	urldate = {2024-06-25},
	journal = {Historisches Institut},
	month = feb,
	year = {2024},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\MLEHZ9Y9\\index_ger.html:text/html},
}

@misc{noauthor_journal_nodate,
	title = {Journal of {Digital} {History}},
	url = {https://journalofdigitalhistory.org},
	abstract = {The Journal of Digital History (JDH) is an international, academic, peer-reviewed and open-access journal. JDH will set new standards in history publishing based on the principle of multi-layered articles.},
	language = {en},
	urldate = {2024-06-25},
	journal = {Journal of Digital History},
	keywords = {notion},
}

@inproceedings{schultes_fair_2019-1,
	address = {Cham},
	title = {{FAIR} {Principles} and {Digital} {Objects}: {Accelerating} {Convergence} on a {Data} {Infrastructure}},
	isbn = {978-3-030-23584-0},
	shorttitle = {{FAIR} {Principles} and {Digital} {Objects}},
	doi = {10.1007/978-3-030-23584-0_1},
	abstract = {As Moore’s Law and associated technical advances continue to bulldoze their way through society, both exciting possibilities and severe challenges emerge. The upside is the explosive growth of data and compute resources that promise revolutionary modes of discovery and innovation not only within traditional knowledge disciplines, but especially between them. The challenge, however, is to build the large-scale, widely accessible, persistent and automated infrastructures that will be necessary for navigating and managing the unprecedented complexity of exponentially increasing quantities of distributed and heterogenous data. This will require innovations in both the technical and social domains. Inspired by the successful development of the Internet and leveraging the Digital Object Framework and FAIR Principles (for making data Findable, Accessible, Interoperable and Reusable by machines) the GO FAIR initiative works with voluntary stakeholders to accelerate convergence on minimal standards and working implementations leading to an Internet of FAIR Data and Services (IFDS). In close collaboration with GO FAIR and DONA, the RDA GEDE and C2CAMP initiatives will continue its FAIR DO implementation efforts..},
	language = {en},
	booktitle = {Data {Analytics} and {Management} in {Data} {Intensive} {Domains}},
	publisher = {Springer International Publishing},
	author = {Schultes, Erik and Wittenburg, Peter},
	editor = {Manolopoulos, Yannis and Stupnikov, Sergey},
	year = {2019},
	keywords = {notion},
	pages = {3--16},
}

@article{wilkinson_fair_2016,
	title = {The {FAIR} {Guiding} {Principles} for scientific data management and stewardship},
	volume = {3},
	copyright = {2016 The Author(s)},
	issn = {2052-4463},
	url = {https://www.nature.com/articles/sdata201618},
	doi = {10.1038/sdata.2016.18},
	abstract = {There is an urgent need to improve the infrastructure supporting the reuse of scholarly data. A diverse set of stakeholders—representing academia, industry, funding agencies, and scholarly publishers—have come together to design and jointly endorse a concise and measureable set of principles that we refer to as the FAIR Data Principles. The intent is that these may act as a guideline for those wishing to enhance the reusability of their data holdings. Distinct from peer initiatives that focus on the human scholar, the FAIR Principles put specific emphasis on enhancing the ability of machines to automatically find and use the data, in addition to supporting its reuse by individuals. This Comment is the first formal publication of the FAIR Principles, and includes the rationale behind them, and some exemplar implementations in the community.},
	language = {en},
	number = {1},
	urldate = {2024-06-25},
	journal = {Scientific Data},
	author = {Wilkinson, Mark D. and Dumontier, Michel and Aalbersberg, IJsbrand Jan and Appleton, Gabrielle and Axton, Myles and Baak, Arie and Blomberg, Niklas and Boiten, Jan-Willem and da Silva Santos, Luiz Bonino and Bourne, Philip E. and Bouwman, Jildau and Brookes, Anthony J. and Clark, Tim and Crosas, Mercè and Dillo, Ingrid and Dumon, Olivier and Edmunds, Scott and Evelo, Chris T. and Finkers, Richard and Gonzalez-Beltran, Alejandra and Gray, Alasdair J. G. and Groth, Paul and Goble, Carole and Grethe, Jeffrey S. and Heringa, Jaap and ’t Hoen, Peter A. C. and Hooft, Rob and Kuhn, Tobias and Kok, Ruben and Kok, Joost and Lusher, Scott J. and Martone, Maryann E. and Mons, Albert and Packer, Abel L. and Persson, Bengt and Rocca-Serra, Philippe and Roos, Marco and van Schaik, Rene and Sansone, Susanna-Assunta and Schultes, Erik and Sengstag, Thierry and Slater, Ted and Strawn, George and Swertz, Morris A. and Thompson, Mark and van der Lei, Johan and van Mulligen, Erik and Velterop, Jan and Waagmeester, Andra and Wittenburg, Peter and Wolstencroft, Katherine and Zhao, Jun and Mons, Barend},
	month = mar,
	year = {2016},
	note = {Publisher: Nature Publishing Group},
	keywords = {notion, Publication characteristics, Research data},
	pages = {160018},
	file = {Full Text PDF:B\:\\Zotero\\storage\\BXNJ674H\\Wilkinson et al. - 2016 - The FAIR Guiding Principles for scientific data ma.pdf:application/pdf},
}

@misc{noauthor_fair_2024-1,
	title = {The fair principles: {Trusting} in fair data repositories},
	shorttitle = {The fair principles},
	url = {https://www.openaccessgovernment.org/article/the-fair-principles-trusting-in-fair-data-repositories/162752/},
	abstract = {Andy Götz, ESRF data manager and PaNOSC coordinator, discusses the impact of applying the FAIR principles to research data},
	language = {en},
	urldate = {2024-06-25},
	journal = {Open Access Government},
	month = apr,
	year = {2024},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\ERN4K9S7\\162752.html:text/html},
}

@article{jacobsen_fair_2020,
	title = {{FAIR} {Principles}: {Interpretations} and {Implementation} {Considerations}},
	volume = {2},
	issn = {2641-435X},
	shorttitle = {{FAIR} {Principles}},
	url = {https://doi.org/10.1162/dint_r_00024},
	doi = {10.1162/dint_r_00024},
	abstract = {The FAIR principles have been widely cited, endorsed and adopted by a broad range
of stakeholders since their publication in 2016. By intention, the 15 FAIR
guiding principles do not dictate specific technological implementations, but
provide guidance for improving Findability, Accessibility,
Interoperability and Reusability of digital resources. This has likely
contributed to the broad adoption of the FAIR principles, because individual
stakeholder communities can implement their own FAIR solutions. However, it has
also resulted in inconsistent interpretations that carry the risk of leading to
incompatible implementations. Thus, while the FAIR principles are formulated on
a high level and may be interpreted and implemented in different ways, for true
interoperability we need to support convergence in implementation choices that
are widely accessible and (re)-usable. We introduce the concept of FAIR
implementation considerations to assist accelerated global
participation and convergence towards accessible, robust, widespread and
consistent FAIR implementations. Any self-identified stakeholder community may
either choose to reuse solutions from existing implementations,
or when they spot a gap, accept the challenge to create the
needed solution, which, ideally, can be used again by other communities in the
future. Here, we provide interpretations and implementation considerations
(choices and challenges) for each FAIR principle.},
	number = {1-2},
	urldate = {2024-06-25},
	journal = {Data Intelligence},
	author = {Jacobsen, Annika and de Miranda Azevedo, Ricardo and Juty, Nick and Batista, Dominique and Coles, Simon and Cornet, Ronald and Courtot, Mélanie and Crosas, Mercè and Dumontier, Michel and Evelo, Chris T. and Goble, Carole and Guizzardi, Giancarlo and Hansen, Karsten Kryger and Hasnain, Ali and Hettne, Kristina and Heringa, Jaap and Hooft, Rob W.W. and Imming, Melanie and Jeffery, Keith G. and Kaliyaperumal, Rajaram and Kersloot, Martijn G. and Kirkpatrick, Christine R. and Kuhn, Tobias and Labastida, Ignasi and Magagna, Barbara and McQuilton, Peter and Meyers, Natalie and Montesanti, Annalisa and van Reisen, Mirjam and Rocca-Serra, Philippe and Pergl, Robert and Sansone, Susanna-Assunta and da Silva Santos, Luiz Olavo Bonino and Schneider, Juliane and Strawn, George and Thompson, Mark and Waagmeester, Andra and Weigel, Tobias and Wilkinson, Mark D. and Willighagen, Egon L. and Wittenburg, Peter and Roos, Marco and Mons, Barend and Schultes, Erik},
	month = jan,
	year = {2020},
	keywords = {notion},
	pages = {10--29},
	file = {Full Text PDF:B\:\\Zotero\\storage\\6MKF9QSM\\Jacobsen et al. - 2020 - FAIR Principles Interpretations and Implementatio.pdf:application/pdf;Snapshot:B\:\\Zotero\\storage\\XBP6NYRQ\\FAIR-Principles-Interpretations-and-Implementation.html:text/html},
}

@book{open_science_european_conference_proceedings_2022,
	address = {Marseille},
	series = {Laboratoire d'idées},
	title = {Proceedings of the {Paris} {Open} {Science} {European} {Conference} : {OSEC} 2022},
	copyright = {https://creativecommons.org/licenses/by/4.0/},
	isbn = {979-10-365-4562-7},
	shorttitle = {Proceedings of the {Paris} {Open} {Science} {European} {Conference}},
	url = {https://books.openedition.org/oep/15829},
	abstract = {For more than twenty years, the international research community has affirmed its support for open and collaborative practices that improve the quality, transparency, reproducibility and inclusiveness of science. In France, this orientation has been reflected in the adoption of two National Plans for Open Science, in 2018 and 2021. In this context and on the occasion of the French Presidency of the Council of the European Union, France organised the Open Science European Conference (OSEC) on 4 and 5 February 2022. This conference on the transformation of the research and innovation ecosystem in Europe was an opportunity to address in particular transparency in health research, the future of scientific publishing and the opening of codes and software produced in a scientific context, but also the necessary transformations of research assessment, summarised in the Paris Call presented during the event and calling for the creation of a coalition of actors committed to reforming the current system. This international event was organised was organised by the French Académie des sciences, the Ministry of Higher Education and Research, the French National Center for Scientific Research (CNRS), the National Institute of Health and Medical Research (Inserm), the High Council for Evaluation of Research and Higher Education (Hcéres), the National Research Agency (ANR), the University of Lorraine and the University of Nantes.},
	language = {en},
	urldate = {2024-06-25},
	publisher = {OpenEdition Press},
	author = {Open Science European Conference},
	year = {2022},
	note = {Code: Proceedings of the Paris Open Science European Conference : OSEC 2022
Publication Title: Proceedings of the Paris Open Science European Conference : OSEC 2022
Reporter: Proceedings of the Paris Open Science European Conference : OSEC 2022
Series Title: Laboratoire d'idées},
	keywords = {notion, open science, scientific publishing},
}

@book{scientific_and_technical_information_department_-_cnrs_white_2016,
	address = {Marseille},
	series = {Laboratoire d'idées},
	title = {White {Paper} — {Open} {Science} in a {Digital} {Republic}},
	copyright = {https://creativecommons.org/licenses/by-nc-nd/4.0/},
	isbn = {978-2-8218-6870-0},
	url = {https://books.openedition.org/oep/1635},
	abstract = {At a time when the Digital Republic Bill is proposing to insert provisions relating to open access in the French Research Code, the French National Centre for Scientific Research (CNRS), alongside its partners in the ISTEX project, as well as a large number of researchers and actors in the field of public research, are offering via this White Paper the results of their deliberations and analyses.For several years now, the scientific community involved in public research has been arguing for the need to create a legal and organisational framework for access to scientific and technical data and information in the digital world, in particular data from its own research activities.This White Paper gives an account of these reflections on the practices of researchers with regard to the use of scientific and technical information and digital tools. The package of proposals for the creation of Open Science is the result of combined efforts and powerful testimonies from the world of research.},
	language = {en},
	urldate = {2024-06-25},
	publisher = {OpenEdition Press},
	author = {Scientific {and} Technical Information Department - CNRS},
	year = {2016},
	note = {Code: White Paper — Open Science in a Digital Republic
Publication Title: White Paper — Open Science in a Digital Republic
Reporter: White Paper — Open Science in a Digital Republic
Series Title: Laboratoire d'idées},
	keywords = {open access, notion, open science, open data},
}

@article{zarghani_application_2023-1,
	title = {The {Application} of {Open} {Science} {Potentials} in {Research} {Processes}: {A} {Comprehensive} {Literature} {Review}},
	volume = {73},
	copyright = {De Gruyter expressly reserves the right to use all content for commercial text and data mining within the meaning of Section 44b of the German Copyright Act.},
	issn = {1865-8423},
	shorttitle = {The {Application} of {Open} {Science} {Potentials} in {Research} {Processes}},
	url = {https://www.degruyter.com/document/doi/10.1515/libri-2022-0007/html},
	doi = {10.1515/libri-2022-0007},
	abstract = {The aim of this study was to conduct a comprehensive literature review of the dimensions of open science in research processes. A total of four databases and snowball searching were used for the comprehensive literature review during 2011–2020; then, we were able to find 98 studies based on the inclusion criteria. Also, we used thematic method to review the relevant studies and identified three categories of dimensions in the research process, namely (1) the publication and sharing category including open access, open data, transparency and reproducibility, citizen science, and crowd sourcing; (2) the infrastructure and cultural category including open infrastructure, open education, open tools, budget mechanism, open culture, and communication; and (3) governance and evaluation including policies, governance, and the ethical principles associated with open science. Open science emphasizes the efforts to open and make the scientific research process more inclusive so as to engage the inside and outside actors in the research process.},
	language = {en},
	number = {2},
	urldate = {2024-06-25},
	journal = {Libri},
	author = {Zarghani, Maryam and Nemati-Anaraki, Leila and Sedghi, Shahram and Chakoli, Abdolreza Noroozi and Rowhani-Farid, Anisa},
	month = jun,
	year = {2023},
	note = {Publisher: De Gruyter Saur},
	keywords = {notion, open research, open science, open science practices, research processes},
	pages = {167--186},
	file = {Full Text PDF:B\:\\Zotero\\storage\\LAUBTHP8\\Zarghani et al. - 2023 - The Application of Open Science Potentials in Rese.pdf:application/pdf},
}

@article{thibault_open_2023-1,
	title = {Open {Science} 2.0: {Towards} a truly collaborative research ecosystem},
	volume = {21},
	issn = {1545-7885},
	shorttitle = {Open {Science} 2.0},
	url = {https://journals.plos.org/plosbiology/article?id=10.1371/journal.pbio.3002362},
	doi = {10.1371/journal.pbio.3002362},
	abstract = {Conversations about open science have reached the mainstream, yet many open science practices such as data sharing remain uncommon. Our efforts towards openness therefore need to increase in scale and aim for a more ambitious target. We need an ecosystem not only where research outputs are openly shared but also in which transparency permeates the research process from the start and lends itself to more rigorous and collaborative research. To support this vision, this Essay provides an overview of a selection of open science initiatives from the past 2 decades, focusing on methods transparency, scholarly communication, team science, and research culture, and speculates about what the future of open science could look like. It then draws on these examples to provide recommendations for how funders, institutions, journals, regulators, and other stakeholders can create an environment that is ripe for improvement.},
	language = {en},
	number = {10},
	urldate = {2024-06-25},
	journal = {PLOS Biology},
	author = {Thibault, Robert T. and Amaral, Olavo B. and Argolo, Felipe and Bandrowski, Anita E. and Alexandra R, Davidson and Drude, Natascha I.},
	month = oct,
	year = {2023},
	note = {Publisher: Public Library of Science},
	keywords = {notion, Reproducibility, Clinical trials, Ecosystems, Open data, Open science, Quality control, Research quality assessment, Science policy},
	pages = {e3002362},
	file = {Full Text PDF:B\:\\Zotero\\storage\\MD8E74M5\\Thibault et al. - 2023 - Open Science 2.0 Towards a truly collaborative re.pdf:application/pdf},
}

@misc{kneubuhl_towards_2018,
	address = {Graz},
	type = {info:eu-repo/semantics/{conferenceObject}},
	title = {Towards an {Open} {Science} {Ecosystem}. {Current} and planned {Services} and {Infrastructure} at the {University} of {Bern}},
	copyright = {info:eu-repo/semantics/openAccess},
	url = {https://boris.unibe.ch/117302/},
	language = {eng},
	urldate = {2024-06-25},
	author = {Kneubühl, Nicole and Morger, Jennifer and Open Science, Team},
	collaborator = {Kneubühl, Nicole and Morger, Jennifer and Open Science, Team},
	year = {2018},
	note = {Publication Title: Kneubühl, Nicole; Morger, Jennifer; Open Science, Team (2018). Towards an Open Science Ecosystem. Current and planned Services and Infrastructure at the University of Bern (Unveröffentlicht). In: Open Access Tage. Graz. 24.-26.09.2018.},
	keywords = {notion},
	file = {Full Text PDF:B\:\\Zotero\\storage\\778TK7S9\\Kneubühl et al. - 2018 - Towards an Open Science Ecosystem. Current and pla.pdf:application/pdf;Snapshot:B\:\\Zotero\\storage\\4X6AMP84\\117302.html:text/html},
}

@book{pinfield_achieving_2024,
	address = {London},
	title = {Achieving {Global} {Open} {Access}: {The} {Need} for {Scientific}, {Epistemic} and {Participatory} {Openness}},
	isbn = {978-1-03-267925-9},
	shorttitle = {Achieving {Global} {Open} {Access}},
	abstract = {Achieving Global Open Access explores some of the key conditions that are necessary to deliver global Open Access (OA) that is effective and equitable.
Often assumed to be a self-evident good, OA has been subject to growing criticism for perpetuating global inequities and epistemic injustices. It has been seen as imposing exploitative business and publishing models and as exacerbating exclusionary research evaluation cultures and practices. Pinfield engages with these issues, recognising that the global OA debate is now not just about publishing business models and academic reward structures, but also about what constitutes valid and valuable knowledge, how we know, and who gets to say. The book argues that, for OA to deliver its potential, it first needs to be associated with ‘epistemic openness’, a wider and more inclusive understanding of what constitutes valid and valuable knowledge. It also needs to be accompanied by ‘participatory openness’, enabling contributions to knowledge from more diverse communities. Interacting with relevant theory and current practice, the book discusses the challenges in implementing these different forms of openness, the relationships between them, and their limits.
Achieving Global Open Access is essential reading for academics and students engaged in the study of Library and Information Science, Open Access and Publishing. It will also be valuable and interesting to library and publishing professionals around the world.},
	publisher = {Routledge},
	author = {Pinfield, Stephen},
	month = jul,
	year = {2024},
	keywords = {notion},
	file = {Pinfield - 2024 - Achieving Global Open Access The Need for Scienti.pdf:B\:\\Zotero\\storage\\GAEVDNUX\\Pinfield - 2024 - Achieving Global Open Access The Need for Scienti.pdf:application/pdf},
}

@book{pinfield_open_2020,
	address = {London},
	title = {Open {Access} in {Theory} and {Practice}: {The} {Theory}-{Practice} {Relationship} and {Openness}},
	isbn = {978-0-429-27684-2},
	shorttitle = {Open {Access} in {Theory} and {Practice}},
	abstract = {Open Access in Theory and Practice investigates the theory-practice relationship in the domain of open access publication and dissemination of research outputs. 

Drawing on detailed analysis of the literature and current practice in OA, as well as data collected in detailed interviews with practitioners, policymakers, and researchers, the book discusses what constitutes ‘theory’, and how the role of theory is perceived by both theorists and practitioners. Exploring the ways theory and practice have interacted in the development of OA, the authors discuss what this reveals about the nature of the OA phenomenon itself and the theory-practice relationship. 

Open Access in Theory and Practice contributes to a better understanding of OA and, as such, should be of great interest to academics, researchers, and students working in the fields of information science, publishing studies, science communication, higher education policy, business, and economics. The book also makes an important contribution to the debate of the relationship between theory and practice in information science, and more widely across different fields of the social sciences and humanities},
	publisher = {Routledge},
	author = {Pinfield, Stephen and Wakeling, Simon and Bawden, David and Robinson, Lyn},
	month = jul,
	year = {2020},
	doi = {10.4324/9780429276842},
	keywords = {notion},
	file = {Volltext:B\:\\Zotero\\storage\\H2INZ8MG\\Pinfield et al. - 2020 - Open Access in Theory and Practice The Theory-Pra.pdf:application/pdf},
}

@book{leonelli_philosophy_2023,
	address = {Cambridge},
	series = {Elements in the {Philosophy} of {Science}},
	title = {Philosophy of {Open} {Science}},
	isbn = {978-1-00-941639-9},
	url = {https://www.cambridge.org/core/elements/philosophy-of-open-science/0D049ECF635F3B676C03C6868873E406},
	abstract = {The Open Science [OS] movement aims to foster the wide dissemination, scrutiny and re-use of research components for the good of science and society. This Element examines the role played by OS principles and practices within contemporary research and how this relates to the epistemology of science. After reviewing some of the concerns that have prompted calls for more openness, it highlights how the interpretation of openness as the sharing of resources, so often encountered in OS initiatives and policies, may have the unwanted effect of constraining epistemic diversity and worsening epistemic injustice, resulting in unreliable and unethical scientific knowledge. By contrast, this Element proposes to frame openness as the effort to establish judicious connections among systems of practice, predicated on a process-oriented view of research as a tool for effective and responsible agency. This title is also available as Open Access on Cambridge Core.},
	urldate = {2024-06-25},
	publisher = {Cambridge University Press},
	author = {Leonelli, Sabina},
	year = {2023},
	doi = {10.1017/9781009416368},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\W6PH47Y6\\0D049ECF635F3B676C03C6868873E406.html:text/html;Volltext:B\:\\Zotero\\storage\\TZZDU7FW\\Leonelli - 2023 - Philosophy of Open Science.pdf:application/pdf},
}

@article{heise_von_nodate,
	title = {Von {Open} {Access} zu {Open} {Science}: {Zum} {Wandel} digitaler {Kulturen} der wissenschaftlichen {Kommunikation}},
	author = {Heise, Christian},
	keywords = {notion},
	file = {Heise - Von Open Access zu Open Science Zum Wandel digita.pdf:B\:\\Zotero\\storage\\R8B8KGGJ\\Heise - Von Open Access zu Open Science Zum Wandel digita.pdf:application/pdf},
}

@article{gottker_rezension_2023,
	title = {Rezension zu: {Wissenschaftskommunikation} im {Wandel} : von {Gutenberg} bis {Open} {Science} / {Rafael} {Ball}},
	volume = {10},
	copyright = {Copyright (c) 2023 Susanne Göttker},
	issn = {2363-9814},
	shorttitle = {Rezension zu},
	url = {https://www.o-bib.de/bib/article/view/5932},
	doi = {10.5282/o-bib/5932},
	language = {de},
	number = {2},
	urldate = {2024-06-25},
	journal = {o-bib. Das offene Bibliotheksjournal / Herausgeber VDB},
	author = {Göttker, Susanne},
	month = may,
	year = {2023},
	note = {Number: 2},
	keywords = {notion, Review, Rezension, Science Communication, Verlagsleistung, Wissenschaftskommunikation},
	pages = {1--9},
	file = {Full Text PDF:B\:\\Zotero\\storage\\AY5LEPPQ\\Göttker - 2023 - Rezension zu Wissenschaftskommunikation im Wandel.pdf:application/pdf},
}

@misc{noauthor_bethesda_nodate,
	title = {Bethesda {Statement} on {Open} {Access} {Publishing}},
	url = {https://dash.harvard.edu/bitstream/handle/1/4725199/Suber_bethesda.htm},
	urldate = {2024-06-25},
	keywords = {notion},
	file = {Bethesda Statement on Open Access Publishing:B\:\\Zotero\\storage\\A3RNLAQI\\Suber_bethesda.html:text/html},
}

@book{steinhauer_recht_2010,
	title = {Recht auf {SichtbarkeitDas}},
	copyright = {Alle Rechte vorbehalten},
	isbn = {978-3-86991-140-3 978-3-96163-014-1},
	url = {https://ub-deposit.fernuni-hagen.de/receive/mir_mods_00000394},
	abstract = {Auf das Grundrecht der Wissenschaftsfreiheit berufen sich Gegner wie Befürworter eines freien und ungehinderten Zugangs zu wissenschaftlichen Publikationen im Internet (Open Access) gleichermaßen. Doch die Freiheit der Wissenschaft wird nicht selten als bloßer Vorwand benutzt, um Gegenpositionen zu diskreditieren. Eine fundierte Auseinandersetzung über ihre tatsächliche Bedeutung für das wissenschaftliche Publizieren findet leider nur in Ansätzen statt. Die zwei Beiträge dieses kleinen Buches möchten hier eine erste bescheidene Abhilfe leisten. Es handelt sich um Vorträge, die ich auf den Göttinger Urheberrechtstagungen der Jahre 2008 und 2009 gehalten habe. Der Titel des vorliegenden Buches ist programmatisch zu verstehen. Es geht um das Recht des wissenschaftlich arbeitenden Menschen, sich in seinem Streben nach Wahrheit und Erkenntnis in einer Weise mitteilen zu können, die nicht wissenschaftsfremden ökonomischen Zielen, sondern allein der wissenschaftlichen Sache selbst verpflichtet ist. Eine so verstandene Mitteilungsfreiheit ist die unabdingbare Voraussetzung dafür, dass echter wissenschaftlicher Fortschritt durch Erkenntnisaustausch, durch Diskussion und Kritik möglich ist. Kann eine Wissenschaft das Maß ihrer Sichtbarkeit nicht mehr selbst bestimmen, hört sie auf, eine freie Wissenschaft zu sein.},
	language = {en},
	urldate = {2024-06-25},
	author = {Steinhauer, Eric},
	year = {2010},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\ETDDILDU\\mir_mods_00000394.html:text/html},
}

@book{forschungszentrum_julich_zukunft_2002,
	address = {Jülich},
	series = {Schriften des {Forschungszentrums} {Jülich} {Reihe} {Bibliothek}},
	title = {Die {Zukunft} des wissenschaftlichen {Publizierens}: der {Wissenschaftler} im {Dialog} mit {Verlag} und {Bibliothek}; {Jülich}, 28. - 30. {November} 2001; {Tagungsprogramm} und {Vorträge}},
	isbn = {978-3-89336-294-3},
	shorttitle = {Die {Zukunft} des wissenschaftlichen {Publizierens}},
	language = {de},
	number = {Bd. 10},
	publisher = {Forschungszentrum Jülich GmbH, Zentralbibl},
	editor = {{Forschungszentrum Jülich}},
	year = {2002},
	keywords = {notion},
	file = {Forschungszentrum Jülich - 2002 - Die Zukunft des wissenschaftlichen Publizierens d.pdf:B\:\\Zotero\\storage\\LIXDUEKB\\Forschungszentrum Jülich - 2002 - Die Zukunft des wissenschaftlichen Publizierens d.pdf:application/pdf},
}

@book{scientific_and_technical_information_white_2016,
	title = {White {Paper} — {Open} {Science} in a {Digital} {Republic}},
	isbn = {978-2-8218-6870-0},
	url = {http://books.openedition.org/oep/1635},
	language = {en},
	urldate = {2024-06-25},
	publisher = {OpenEdition Press},
	author = {{Scientific And Technical Information}},
	year = {2016},
	doi = {10.4000/books.oep.1635},
	keywords = {notion},
	file = {Scientific And Technical Information - 2016 - White Paper — Open Science in a Digital Republic.pdf:B\:\\Zotero\\storage\\34PPFLUN\\Scientific And Technical Information - 2016 - White Paper — Open Science in a Digital Republic.pdf:application/pdf},
}

@book{vancauwenbergh_digital_2021,
	title = {Digital {Libraries} - {Advancing} {Open} {Science}},
	isbn = {978-1-83968-201-8},
	url = {https://www.intechopen.com/books/9975},
	abstract = {Over the past decades, traditional academic library environments have transformed into digital libraries. This has resulted in many challenges for libraries in terms of the reinvention of libraries’ roles and organizations, the skill sets of librarians, and library infrastructure. At the same time, this profound transformation has opened the door to many new avenues, such as the support and advancement of Open Science. This book offers insights into the transformation of traditional library environments to digital libraries and details how digital libraries can contribute to Open Science, in particular to Open Access, FAIR and Open Data, and Open Education, by describing methods, criteria, strengths, and weaknesses as well as applications.},
	language = {en},
	urldate = {2024-06-25},
	author = {Vancauwenbergh, Sadia},
	month = jun,
	year = {2021},
	doi = {10.5772/intechopen.87798},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\3D75Q22K\\9975.html:text/html},
}

@book{miedema_open_2022,
	address = {Dordrecht},
	title = {Open {Science}: the {Very} {Idea}},
	copyright = {https://creativecommons.org/licenses/by/4.0},
	isbn = {978-94-024-2114-9 978-94-024-2115-6},
	shorttitle = {Open {Science}},
	url = {https://link.springer.com/10.1007/978-94-024-2115-6},
	language = {en},
	urldate = {2024-06-25},
	publisher = {Springer Netherlands},
	author = {Miedema, Frank},
	year = {2022},
	doi = {10.1007/978-94-024-2115-6},
	keywords = {open access, notion, ideologies and myths about science, open access and society, science and society, science in social contexts, science in transition to open access, transition to open science},
	file = {Full Text PDF:B\:\\Zotero\\storage\\8ZFALA6S\\Miedema - 2022 - Open Science the Very Idea.pdf:application/pdf},
}

@article{hofmann_open_2022,
	title = {Open {Science} {Knowledge} {Production}: {Addressing} {Epistemological} {Challenges} and {Ethical} {Implications}},
	volume = {10},
	shorttitle = {Open {Science} {Knowledge} {Production}},
	doi = {10.3390/publications10030024},
	abstract = {Open Science (OS) is envisioned to have a wide range of benefits including being more transparent, shared, accessible, and collaboratively developed than traditional science. Despite great enthusiasm, there are also several challenges with OS. In order to ensure that OS obtains its benefits, these challenges need to be addressed. Accordingly, the objective of this study is to provide an overview of one type of challenge, i.e., epistemological challenges with OS knowledge production, and their ethical implications. Based on a literature review, it (a) reveals factors undermining the envisioned benefits of OS, (b) identifies negative effects on knowledge production, and (c) exposes epistemological challenges with the various phases of the OS process. The main epistemic challenges are related to governance, framing, looping effects, proper data procurement, validation, replication, bias, and polarization. The ethical implications are injustice, reduced benefit (efficiency), increased harm (as a consequence of poor-quality science), deception and manipulation (reduced autonomy), and lack of trustworthiness. Accordingly, to obtain the envisioned benefits of OS, we need to address these epistemological challenges and their ethical implications.},
	journal = {Publications},
	author = {Hofmann, Bjørn},
	month = jul,
	year = {2022},
	keywords = {notion},
	pages = {24},
	file = {Volltext:B\:\\Zotero\\storage\\CS48CTYY\\Hofmann - 2022 - Open Science Knowledge Production Addressing Epis.pdf:application/pdf},
}

@article{leible_review_2019,
	title = {A {Review} on {Blockchain} {Technology} and {Blockchain} {Projects} {Fostering} {Open} {Science}},
	volume = {2},
	doi = {10.3389/fbloc.2019.00016},
	abstract = {Many sectors, like finance, medicine, manufacturing, and education, use blockchain applications to profit from the unique bundle of characteristics of this technology. Blockchain technology (BT) promises benefits in trustability, collaboration, organization, identification, credibility, and transparency. In this paper, we conduct an analysis in which we show how open science can benefit from this technology and its properties. For this, we determined the requirements of an open science ecosystem and compared them with the characteristics of BT to prove that the technology suits as an infrastructure. We also review literature and promising blockchain-based projects for open science to describe the current research situation. To this end, we examine the projects in particular for their relevance and contribution to open science and categorize them afterwards according to their primary purpose. Several of them already provide functionalities that can have a positive impact on current research workflows. So, BT offers promising possibilities for its use in science, but why is it then not used on a large-scale in that area? To answer this question, we point out various shortcomings, challenges, unanswered questions, and research potentials that we found in the literature and identified during our analysis. These topics shall serve as starting points for future research to foster the BT for open science and beyond, especially in the long-term.},
	author = {Leible, Stephan and Schlager, Steffen and Schubotz, Moritz and Gipp, Bela},
	month = nov,
	year = {2019},
	keywords = {notion},
	pages = {1--28},
	file = {Full Text PDF:B\:\\Zotero\\storage\\DKHMWADH\\Leible et al. - 2019 - A Review on Blockchain Technology and Blockchain P.pdf:application/pdf},
}

@incollection{stracke_open_2020,
	title = {Open {Science} and {Radical} {Solutions} for {Diversity}, {Equity} and {Quality} in {Research}: {A} {Literature} {Review} of {Different} {Research} {Schools}, {Philosophies} and {Frameworks} and {Their} {Potential} {Impact} on {Science} and {Education}},
	isbn = {9789811542756},
	shorttitle = {Open {Science} and {Radical} {Solutions} for {Diversity}, {Equity} and {Quality} in {Research}},
	abstract = {Open Science is a phenomenon that can be traced back to the Middle Ages. In the end of the twentieth century and the beginning of the twenty-first century, Open Science is strongly growing due to the worldwide internet and related new technologies, tools and communication channels. Two core objectives (reliability and trust) and three main characteristics (transparency, openness and reproducibility) of Open Science can be identified but it is still too early for a broad definition of this growing movement. Its growth is happening in many disciplines and in diverse facets. This article presents an overview of how Open Science is introduced and established in all three science dimensions of research design, processes and publications. For the future, the benefits are analysed that Open Science is offering, as well as the challenges that it is facing. It can be concluded that it is desirable that all researchers collaborate in Open Science. Open Science can improve the different science disciplines, research practices and science in general. In that way, Open Science can contribute to overcome the post-truth age through increasing objective and subjective credibility of science and research. And in the long-term perspective, Open Science can improve the whole research, education, as well as our society.},
	author = {Stracke, Christian},
	month = may,
	year = {2020},
	doi = {10.1007/978-981-15-4276-3_2},
	keywords = {notion},
	pages = {17--37},
	file = {Volltext:B\:\\Zotero\\storage\\8B2QRZNK\\Stracke - 2020 - Open Science and Radical Solutions for Diversity, .pdf:application/pdf},
}

@article{lakomy_open_2019,
	title = {Open {Science} and the {Science}-{Society} {Relationship}},
	volume = {56},
	doi = {10.1007/s12115-019-00361-w},
	abstract = {Nowadays, the prevailing trend in the science-society relationship is to engage with the broader public, which is beneficial for the public, scientific institutes, scientific findings, and the legitimacy of science as a whole. This article provides a broad review of the rapidly growing research on Open Science and identifies the gaps in the current knowledge for future research. The review focuses on the science-society relationship, such that knowledge from this field is summarised and systematised. Insight into the most salient topics, including science communication, public engagement with science, public cognition of science, and challenges and potential unintended consequences connected to interactions with the public are examined. The first section of the paper focuses on science communication which involves efforts and approaches to inform the public about science by the most effective means. The section on public engagement reviews how scientists and scientific institutions are increasingly involved in direct interactions with the public and different groups of stakeholders to make science more open. The section focusing on public cognition of science provides information about public knowledge, perception, and trust regarding science, which both determines and is formed by public engagement. Last, risks, ethical issues, and data issues connected to the implementation of Open Science principles are reviewed, as there are many unintended consequences of Open Science which are examined by this current research. In conclusion, research covering the science-society relationship is rapidly growing. However, it brings multiple challenges as well as opportunities which are captured and discussed in a variety of existing studies. This article provides a coherent overview of this field in order to bring more comprehensible knowledge to scientists, scientific institutions, and outreach professionals.},
	journal = {Society},
	author = {Lakomý, Martin and Hlavova, Renata and Machackova, Hana},
	month = jun,
	year = {2019},
	keywords = {notion},
	pages = {1--10},
	file = {Full Text PDF:B\:\\Zotero\\storage\\PERY3CWU\\Lakomý et al. - 2019 - Open Science and the Science-Society Relationship.pdf:application/pdf},
}

@article{grand_open_2015,
	title = {Open science},
	volume = {14},
	doi = {10.22323/2.14040302},
	abstract = {Open science is the most recent paradigm shift in the practice of science. However, it is a practice that has emerged relatively recently and as such, its definition is constantly-shifting and evolving. This commentary describes the historical background of open science and its current practice, particularly with reference to its relationship with public engagement with research.},
	journal = {Journal of Science Communication},
	author = {Grand, Ann},
	month = dec,
	year = {2015},
	keywords = {notion},
	file = {Volltext:B\:\\Zotero\\storage\\RGWKEU2Q\\Grand - 2015 - Open science.pdf:application/pdf},
}

@article{brabeck_open_2021,
	title = {Open {Science} and {Feminist} {Ethics}: {Promises} and {Challenges} of {Open} {Access}},
	volume = {45},
	shorttitle = {Open {Science} and {Feminist} {Ethics}},
	doi = {10.1177/03616843211030926},
	abstract = {Open science advocates argue that making data sets, studies, methodologies, and other aspects of research free from publication fees and available to scholars will increase collaborations, access, and dissemination of knowledge. In this article, I argue that open access policies and practices raise both feminist and ethical issues. I reflect on the five themes of feminist ethics identified 20 years ago by a task force of the Society for the Psychology of Women. I update the themes with recent scholarship of feminist philosophers and ethicists, and I use the themes to raise questions about the promises and challenges of open access. Throughout, I offer suggestions for all who seek to make knowledge of human psychology more complete and more accessible to more people. I conclude by offering recommendations informed by feminist ethics to those building the policies and practices of open access.},
	journal = {Psychology of Women Quarterly},
	author = {Brabeck, Mary},
	month = jul,
	year = {2021},
	keywords = {notion},
	pages = {036168432110309},
}

@book{gerdes_open-science-bewegung_2018,
	title = {Die {Open}-{Science}-{Bewegung} und ihre {Bedeutung} für die wissenschaftlichen {Bibliotheken}. {Eine} {Analyse} von {Positionspapieren} und {Entwicklungsperspektiven}},
	abstract = {Die Bedeutung von Open Science für wissenschaftliche Bibliotheken steht im Mittelpunkt dieser Untersuchung. Sie geht zunächst den Aussagen zum Thema Open Science in für wissenschaftliche Bibliotheken relevanten Positionspapieren nach. Daraufhin wird anhand ausgewählter Fallbeispiele dargestellt, inwieweit die wissenschaftlichen Bibliotheken in Deutschland und der EU bereits im Bereich Open Science aktiv sind. Schließlich ist es Ziel dieser Untersuchung, Möglichkeiten für die weitere Entwicklung von Open Science in wissenschaftlichen Bibliotheken aufzuzeigen.},
	author = {Gerdes, Thomas},
	month = apr,
	year = {2018},
	doi = {10.18452/18983},
	keywords = {notion},
	file = {Full Text PDF:B\:\\Zotero\\storage\\TIRSPUAP\\Gerdes - 2018 - Die Open-Science-Bewegung und ihre Bedeutung für d.pdf:application/pdf},
}

@article{joyeux-prunel_digital_2024-1,
	title = {Digital humanities in the era of digital reproducibility: towards a fairest and post-computational framework},
	volume = {6},
	issn = {2524-7840},
	shorttitle = {Digital humanities in the era of digital reproducibility},
	url = {https://doi.org/10.1007/s42803-023-00079-6},
	doi = {10.1007/s42803-023-00079-6},
	abstract = {Reproducibility has become a requirement in the hard sciences, and its adoption is gradually extending to the digital humanities. The FAIR criteria and the publication of data papers are both indicative of this trend. However, the question that arises is whether the strict prerequisites of digital reproducibility serve only to exclude digital humanities from broader humanities scholarship. Instead of adopting a binary approach, an alternative method acknowledges the unique features of the objects, inquiries, and techniques of the humanities, including digital humanities, as well as the social and historical contexts in which the concept of reproducibility has developed in the human sciences. In the first part of this paper, I propose to examine the historical and disciplinary context in which the concept of reproducibility has developed within the human sciences, and the disciplinary struggles involved in this process, especially for art history and literature studies. In the second part, I will explore the question of reproducibility through two art history research projects that utilize various computational methods. I argue that issues of corpus, method, and interpretation cannot be separated, rendering a procedural definition of reproducibility impractical. Consequently, I propose the adoption of ‘post-computational reproducibility’, which is based on FAIREST criteria as far as digital corpora are concerned (FAIR + Ethics and Expertise, Source mention + Time-Stamp), but extended to include further sources that confirm computational results with other non-computational methodologies.},
	language = {en},
	number = {1},
	urldate = {2024-06-25},
	journal = {International Journal of Digital Humanities},
	author = {Joyeux-Prunel, Béatrice},
	month = apr,
	year = {2024},
	keywords = {Digital humanities, notion, Data, Digital art history, Distant reading, FAIR principles, Reproducibility},
	pages = {23--43},
	file = {Full Text PDF:B\:\\Zotero\\storage\\ZZF8J4HL\\Joyeux-Prunel - 2024 - Digital humanities in the era of digital reproduci.pdf:application/pdf},
}

@article{borrego_crossref_2023,
	title = {Crossref as a bibliographic discovery tool in the arts and humanities},
	volume = {4},
	issn = {2641-3337},
	url = {https://doi.org/10.1162/qss_a_00240},
	doi = {10.1162/qss_a_00240},
	abstract = {Crossref is an official digital object identifier registration agency launched in 2000 as a joint effort between publishers to allow persistent cross-publisher citation linking in online academic journals. Our study explores the coverage of Crossref for tracking literature in the arts and humanities, which usually has a national or regional focus and targets domestic audiences. An analysis of the coverage of ERIH PLUS journals shows that Crossref indexes more sources than Scopus and includes additional journals from Eastern and Southern Europe and the Global South. Crossref limitations arise when analyzing the amount of metadata deposited by publishers. Just two-thirds of the journals deposit abstracts and ORCIDs and around a third deposit affiliations. The level of metadata completion for individual articles is lower, with major differences depending on the language of the document. Just half of the journals actually deposit references. As a result, Scopus retrieves more citations than Crossref, except for publications in German and French. Crossref represents a promising bibliographic discovery tool in the arts and humanities but is in need of improvement regarding the level of metadata completion.},
	number = {1},
	urldate = {2024-06-25},
	journal = {Quantitative Science Studies},
	author = {Borrego, Ángel and Ardanuy, Jordi and Arguimbau, Llorenç},
	month = mar,
	year = {2023},
	keywords = {notion},
	pages = {91--104},
	file = {Full Text PDF:B\:\\Zotero\\storage\\8XC2WM6V\\Borrego et al. - 2023 - Crossref as a bibliographic discovery tool in the .pdf:application/pdf;Snapshot:B\:\\Zotero\\storage\\REFZLYKU\\Crossref-as-a-bibliographic-discovery-tool-in-the.html:text/html},
}

@article{eichenberger_editorial_2022,
	title = {Editorial: {Critical} {Library} {Perspectives}. {Ein} digitales {Denklabor}},
	volume = {9},
	issn = {2296-0597,},
	shorttitle = {Editorial},
	url = {https://0277.pubpub.org/pub/ailrzesn/release/1},
	doi = {10.21428/1bfadeb6.7b5106f5},
	language = {en},
	number = {4},
	urldate = {2024-06-25},
	journal = {027.7},
	author = {Eichenberger, Nicole and Harnisch, Franziska and Schmid, Larissa},
	month = sep,
	year = {2022},
	keywords = {notion},
	file = {Full Text PDF:B\:\\Zotero\\storage\\IC9HSAWS\\Eichenberger et al. - 2022 - Editorial Critical Library Perspectives. Ein digi.pdf:application/pdf},
}

@book{berthold_guide_2020,
	address = {Cham},
	series = {Texts in {Computer} {Science}},
	title = {Guide to {Intelligent} {Data} {Science}: {How} to {Intelligently} {Make} {Use} of {Real} {Data}},
	copyright = {http://www.springer.com/tdm},
	isbn = {978-3-030-45573-6 978-3-030-45574-3},
	shorttitle = {Guide to {Intelligent} {Data} {Science}},
	url = {http://link.springer.com/10.1007/978-3-030-45574-3},
	language = {en},
	urldate = {2024-06-25},
	publisher = {Springer International Publishing},
	author = {Berthold, Michael R. and Borgelt, Christian and Höppner, Frank and Klawonn, Frank and Silipo, Rosaria},
	year = {2020},
	doi = {10.1007/978-3-030-45574-3},
	keywords = {knowledge, bioinformatics, calculus, classification, cognition, data analysis, databases, KNIME, modeling, pattern recognition, statistics, notion},
	file = {Eingereichte Version:B\:\\Zotero\\storage\\DZGV66CA\\Berthold et al. - 2020 - Guide to Intelligent Data Science How to Intellig.pdf:application/pdf},
}

@article{spencer_binary_2017,
	title = {Binary trees? {Automatically} identifying the links between born-digital records},
	volume = {45},
	copyright = {Copyright (c)},
	issn = {2164-6058},
	shorttitle = {Binary trees?},
	url = {https://publications.archivists.org.au/index.php/asa/article/view/10483},
	doi = {10.1080/01576895.2017.1330158},
	abstract = {The sheer volume of records that government organisations, and thus government archives, work with on a daily basis means that there is a chance that relationships between individual records will not easily be captured and recorded. This paper begins by suggesting that the relationships described in archival catalogues will remain at the highest levels of abstraction unless they can be extracted using automated methods. Relationships that can be generated automatically are described in this paper. They will likely be less established than archivists are traditionally used to working with. For example, a so-called ‘fuzzy matching’ technique is discussed that may reveal the ‘points’ of similarity between two records. Extensible databases will be needed to store new links; flexible interfaces will be required to display them. This paper discusses some of the techniques that may currently be available for automatically identifying links between born-digital records by looking at what can be found in the data stream and the relationships digital formats inherently describe. The mechanisms described may be useful for sentencing as well as cataloguing and description. While one size will not fit all, some collections may benefit. The paper concludes by discussing briefly what this work will mean to the end user.},
	language = {en},
	number = {2},
	urldate = {2024-06-25},
	journal = {Archives \& Manuscripts},
	author = {Spencer, Ross},
	month = aug,
	year = {2017},
	note = {Number: 2},
	keywords = {automated description, born-digital, digital literacy, digital techniques, Item relationships, notion},
	pages = {77--99},
	file = {Full Text PDF:B\:\\Zotero\\storage\\F7SUDSXA\\Spencer - 2017 - Binary trees Automatically identifying the links .pdf:application/pdf},
}

@inproceedings{bazzanella_interoperability_2016-1,
	address = {Cham},
	title = {An {Interoperability} {Infrastructure} for {Digital} {Identifiers} in e-{Science}},
	isbn = {978-3-319-41938-1},
	doi = {10.1007/978-3-319-41938-1_17},
	abstract = {The rapid increase of scientific digital assets in the last years has made clear that digital identifiers are crucial for effectively publishing, accessing and managing digital information in e-science contexts. From persistent keys for access to digital objects in network environments, the concept of persistent identifiers has been more recently extended to identify also physical objects like people, institutions and any type of relevant entity in the e-Science domain, opening the way to the creation of an integrated information space where a network of resources can be resolved, linked, navigated and analyzed, as the Linked Open Data approach envisions for the Web. However, the creation and full exploitation of this valuable network of connections is currently hindered by the fragmentation and lack of coordination of the digital identifier ecosystem. The aim of this paper is to propose an open, distributed and scalable infrastructure for interoperating existing Persistent Identifiers and other digital identifier systems (like Cool URIs) in e-science, overcoming geographical, disciplinary and organizational boundaries. The Digital Identifier interoperability infrastructure is presented as a cross-cutting solution of core services enabling interoperability at three different levels: identifier, co-reference and semantic.},
	language = {en},
	booktitle = {Digital {Libraries} on the {Move}},
	publisher = {Springer International Publishing},
	author = {Bazzanella, Barbara and Bouquet, Paolo},
	editor = {Calvanese, Diego and De Nart, Dario and Tasso, Carlo},
	year = {2016},
	keywords = {notion},
	pages = {167--178},
	file = {Eingereichte Version:B\:\\Zotero\\storage\\AFF35PX2\\Bazzanella und Bouquet - 2016 - An Interoperability Infrastructure for Digital Ide.pdf:application/pdf},
}

@book{kubek_concepts_2020-1,
	address = {Cham},
	series = {Studies in {Big} {Data}},
	title = {Concepts and {Methods} for a {Librarian} of the {Web}},
	volume = {62},
	copyright = {http://www.springer.com/tdm},
	isbn = {978-3-030-23135-4 978-3-030-23136-1},
	url = {http://link.springer.com/10.1007/978-3-030-23136-1},
	language = {en},
	urldate = {2024-06-25},
	publisher = {Springer International Publishing},
	author = {Kubek, Mario},
	year = {2020},
	doi = {10.1007/978-3-030-23136-1},
	keywords = {notion, Co-occurrence Graph, Librarian of the Web, P2P-system, Web Engine, Web Search Engine},
	file = {Eingereichte Version:B\:\\Zotero\\storage\\CALV66YE\\Kubek - 2020 - Concepts and Methods for a Librarian of the Web.pdf:application/pdf},
}

@article{candela_checklist_2023,
	title = {A {Checklist} to {Publish} {Collections} as {Data} in {GLAM} {Institutions}},
	issn = {2514-9342, 2514-9342},
	url = {http://arxiv.org/abs/2304.02603},
	doi = {10.1108/GKMC-06-2023-0195},
	abstract = {Large-scale digitization in Galleries, Libraries, Archives and Museums (GLAM) created the conditions for providing access to collections as data. It opened new opportunities to explore, use and reuse digital collections. Strong proponents of collections as data are the Innovation Labs which provided numerous examples of publishing datasets under open licenses in order to reuse digital content in novel and creative ways. Within the current transition to the emerging data spaces, clouds for cultural heritage and open science, the need to identify practices which support more GLAM institutions to offer datasets becomes a priority, especially within the smaller and medium-sized institutions. This paper answers the need to support GLAM institutions in facilitating the transition into publishing their digital content and to introduce collections as data services; this will also help their future efficient contribution to data spaces and cultural heritage clouds. It offers a checklist that can be used for both creating and evaluating digital collections suitable for computational use. The main contributions of this paper are i) a methodology for devising a checklist to create and assess digital collections for computational use; ii) a checklist to create and assess digital collections suitable for use with computational methods; iii) the assessment of the checklist against the practice of institutions innovating in the Collections as data field; and iv) the results obtained after the application and recommendations for the use of the checklist in GLAM institutions.},
	urldate = {2024-06-25},
	journal = {Global Knowledge, Memory and Communication},
	author = {Candela, Gustavo and Gabriëls, Nele and Chambers, Sally and Pham, Thuy-An and Ames, Sarah and Fitzgerald, Neil and Hofmann, Katrine and Harbo, Victor and Potter, Abigail and Ferriter, Meghan and Manchester, Eileen and Irollo, Alba and Van Keer, Ellen and Mahey, Mahendra and Holownia, Olga and Dobreva, Milena},
	month = nov,
	year = {2023},
	note = {arXiv:2304.02603 [cs]},
	keywords = {Computer Science - Digital Libraries, notion},
	file = {arXiv Fulltext PDF:B\:\\Zotero\\storage\\75X9VJRV\\Candela et al. - 2023 - A Checklist to Publish Collections as Data in GLAM.pdf:application/pdf;arXiv.org Snapshot:B\:\\Zotero\\storage\\RQFNU2IQ\\2304.html:text/html},
}

@incollection{noauthor_frontmatter_2007,
	title = {Frontmatter},
	isbn = {978-0-470-69094-9},
	url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/9780470690949.fmatter},
	abstract = {The prelims comprise: Half Title Title Copyright Contents Illustrations Notes on Contributors},
	language = {en},
	urldate = {2024-07-15},
	booktitle = {A {Companion} to the {History} of the {Book}},
	publisher = {John Wiley \& Sons, Ltd},
	year = {2007},
	doi = {10.1002/9780470690949.fmatter},
	note = {\_eprint: https://onlinelibrary.wiley.com/doi/pdf/10.1002/9780470690949.fmatter},
	pages = {i--xvi},
	file = {Snapshot:B\:\\Zotero\\storage\\4NHREU9U\\9780470690949.html:text/html},
}

@incollection{robson_clay_2007,
	title = {The {Clay} {Tablet} {Book} in {Sumer}, {Assyria}, and {Babylonia}},
	copyright = {Copyright © 2007 Blackwell Publishing Ltd},
	isbn = {978-0-470-69094-9},
	url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/9780470690949.ch5},
	abstract = {This chapter contains section titled: The World before the Codex Books of Clay? Cuneiform Culture School Books in Bronze Age Sumer? Books as Cultural Capital in Iron Age Assyria Books and Professional Identity in Hellenistic Babylonia Conclusions: Re-reading Tablets in the Light of Book History},
	language = {en},
	urldate = {2024-07-15},
	booktitle = {A {Companion} to the {History} of the {Book}},
	publisher = {John Wiley \& Sons, Ltd},
	author = {Robson, Eleanor},
	year = {2007},
	doi = {10.1002/9780470690949.ch5},
	note = {Section: 5
\_eprint: https://onlinelibrary.wiley.com/doi/pdf/10.1002/9780470690949.ch5},
	keywords = {arabic, babylonia, cuneiform culture, hebrew, temple bureaucracy},
	pages = {63--83},
	file = {Snapshot:B\:\\Zotero\\storage\\B7FTLCTN\\9780470690949.html:text/html},
}

@article{bacon_upper_2023,
	title = {An {Upper} {Palaeolithic} {Proto}-writing {System} and {Phenological} {Calendar}},
	volume = {33},
	issn = {0959-7743, 1474-0540},
	url = {https://www.cambridge.org/core/journals/cambridge-archaeological-journal/article/an-upper-palaeolithic-protowriting-system-and-phenological-calendar/6F2AD8A705888F2226FE857840B4FE19},
	doi = {10.1017/S0959774322000415},
	abstract = {In at least 400 European caves such as Lascaux, Chauvet and Altamira, Upper Palaeolithic Homo sapiens groups drew, painted and engraved non-figurative signs from at least {\textasciitilde}42,000 bp and figurative images (notably animals) from at least 37,000 bp. Since their discovery {\textasciitilde}150 years ago, the purpose or meaning of European Upper Palaeolithic non-figurative signs has eluded researchers. Despite this, specialists assume that they were notational in some way. Using a database of images spanning the European Upper Palaeolithic, we suggest how three of the most frequently occurring signs—the line {\textless}{\textbar}{\textgreater}, the dot {\textless}•{\textgreater}, and the {\textless}Y{\textgreater}—functioned as units of communication. We demonstrate that when found in close association with images of animals the line {\textless}{\textbar}{\textgreater} and dot {\textless}•{\textgreater} constitute numbers denoting months, and form constituent parts of a local phenological/meteorological calendar beginning in spring and recording time from this point in lunar months. We also demonstrate that the {\textless}Y{\textgreater} sign, one of the most frequently occurring signs in Palaeolithic non-figurative art, has the meaning {\textless}To Give Birth{\textgreater}. The position of the {\textless}Y{\textgreater} within a sequence of marks denotes month of parturition, an ordinal representation of number in contrast to the cardinal representation used in tallies. Our data indicate that the purpose of this system of associating animals with calendar information was to record and convey seasonal behavioural information about specific prey taxa in the geographical regions of concern. We suggest a specific way in which the pairing of numbers with animal subjects constituted a complete unit of meaning—a notational system combined with its subject—that provides us with a specific insight into what one set of notational marks means. It gives us our first specific reading of European Upper Palaeolithic communication, the first known writing in the history of Homo sapiens.},
	language = {en},
	number = {3},
	urldate = {2024-07-13},
	journal = {Cambridge Archaeological Journal},
	author = {Bacon, Bennett and Khatiri, Azadeh and Palmer, James and Freeth, Tony and Pettitt, Paul and Kentridge, Robert},
	month = aug,
	year = {2023},
	pages = {371--389},
	file = {Full Text PDF:B\:\\Zotero\\storage\\QBWELTBZ\\Bacon et al. - 2023 - An Upper Palaeolithic Proto-writing System and Phe.pdf:application/pdf},
}

@incollection{howard-hill_why_2007,
	title = {Why {Bibliography} {Matters}},
	copyright = {Copyright © 2007 Blackwell Publishing Ltd},
	isbn = {978-0-470-69094-9},
	url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/9780470690949.ch1},
	abstract = {This chapter contains section titled: Enumerative Bibliography Analytical Bibliography Descriptive Bibliography Textual Bibliography Historical Bibliography Bibliography and Modern Book History},
	language = {en},
	urldate = {2024-07-13},
	booktitle = {A {Companion} to the {History} of the {Book}},
	publisher = {John Wiley \& Sons, Ltd},
	author = {Howard-Hill, T. H.},
	year = {2007},
	doi = {10.1002/9780470690949.ch1},
	note = {Section: 1
\_eprint: https://onlinelibrary.wiley.com/doi/pdf/10.1002/9780470690949.ch1},
	keywords = {bibliographers, bibliography, books, bookshops, libraries},
	pages = {7--20},
}

@book{eisenstein_printing_1980,
	address = {Cambridge},
	title = {The {Printing} {Press} as an {Agent} of {Change}},
	isbn = {978-0-521-29955-8},
	url = {https://www.cambridge.org/core/books/printing-press-as-an-agent-of-change/7DC19878AB937940DE13075FE839BDBA},
	abstract = {Originally published in two volumes in 1980, The Printing Press as an Agent of Change is now issued in a paperback edition containing both volumes. The work is a full-scale historical treatment of the advent of printing and its importance as an agent of change. Professor Eisenstein begins by examining the general implications of the shift from script to print, and goes on to examine its part in three of the major movements of early modern times - the Renaissance, the Reformation, and the rise of modern science.},
	urldate = {2024-07-13},
	publisher = {Cambridge University Press},
	author = {Eisenstein, Elizabeth L.},
	year = {1980},
	doi = {10.1017/CBO9781107049963},
	file = {Snapshot:B\:\\Zotero\\storage\\CBJ3E8XJ\\7DC19878AB937940DE13075FE839BDBA.html:text/html},
}

@misc{noauthor_evolution_nodate,
	title = {The {Evolution} of {Writing} {\textbar} {Denise} {Schmandt}-{Besserat}},
	url = {https://sites.utexas.edu/dsb/tokens/the-evolution-of-writing/},
	language = {en-US},
	urldate = {2024-07-13},
	file = {evolution_writing.pdf:B\:\\Zotero\\storage\\G4ZKETPD\\evolution_writing.pdf:application/pdf;Snapshot:B\:\\Zotero\\storage\\AGR242FG\\the-evolution-of-writing.html:text/html},
}

@misc{noauthor_paul_nodate,
	title = {Paul {Romer}},
	url = {https://paulromer.net/jupyter-mathematica-and-the-future-of-the-research-paper/},
	urldate = {2024-07-13},
	keywords = {notion},
	file = {Paul Romer:B\:\\Zotero\\storage\\RLWRIREP\\jupyter-mathematica-and-the-future-of-the-research-paper.html:text/html},
}

@misc{somers_scientific_2018,
	title = {The {Scientific} {Paper} {Is} {Obsolete}},
	url = {https://www.theatlantic.com/science/archive/2018/04/the-scientific-paper-is-obsolete/556676/},
	abstract = {Here's what's next.},
	language = {en},
	urldate = {2024-07-13},
	journal = {The Atlantic},
	author = {Somers, James},
	month = apr,
	year = {2018},
	note = {Section: Science},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\C8S823CQ\\556676.html:text/html},
}

@article{wilkinson_fair_2016-1,
	title = {The {FAIR} {Guiding} {Principles} for scientific data management and stewardship},
	volume = {3},
	copyright = {2016 The Author(s)},
	issn = {2052-4463},
	url = {https://www.nature.com/articles/sdata201618},
	doi = {10.1038/sdata.2016.18},
	abstract = {There is an urgent need to improve the infrastructure supporting the reuse of scholarly data. A diverse set of stakeholders—representing academia, industry, funding agencies, and scholarly publishers—have come together to design and jointly endorse a concise and measureable set of principles that we refer to as the FAIR Data Principles. The intent is that these may act as a guideline for those wishing to enhance the reusability of their data holdings. Distinct from peer initiatives that focus on the human scholar, the FAIR Principles put specific emphasis on enhancing the ability of machines to automatically find and use the data, in addition to supporting its reuse by individuals. This Comment is the first formal publication of the FAIR Principles, and includes the rationale behind them, and some exemplar implementations in the community.},
	language = {en},
	number = {1},
	urldate = {2024-07-13},
	journal = {Scientific Data},
	author = {Wilkinson, Mark D. and Dumontier, Michel and Aalbersberg, IJsbrand Jan and Appleton, Gabrielle and Axton, Myles and Baak, Arie and Blomberg, Niklas and Boiten, Jan-Willem and da Silva Santos, Luiz Bonino and Bourne, Philip E. and Bouwman, Jildau and Brookes, Anthony J. and Clark, Tim and Crosas, Mercè and Dillo, Ingrid and Dumon, Olivier and Edmunds, Scott and Evelo, Chris T. and Finkers, Richard and Gonzalez-Beltran, Alejandra and Gray, Alasdair J. G. and Groth, Paul and Goble, Carole and Grethe, Jeffrey S. and Heringa, Jaap and ’t Hoen, Peter A. C. and Hooft, Rob and Kuhn, Tobias and Kok, Ruben and Kok, Joost and Lusher, Scott J. and Martone, Maryann E. and Mons, Albert and Packer, Abel L. and Persson, Bengt and Rocca-Serra, Philippe and Roos, Marco and van Schaik, Rene and Sansone, Susanna-Assunta and Schultes, Erik and Sengstag, Thierry and Slater, Ted and Strawn, George and Swertz, Morris A. and Thompson, Mark and van der Lei, Johan and van Mulligen, Erik and Velterop, Jan and Waagmeester, Andra and Wittenburg, Peter and Wolstencroft, Katherine and Zhao, Jun and Mons, Barend},
	month = mar,
	year = {2016},
	note = {Publisher: Nature Publishing Group},
	keywords = {notion, Publication characteristics, Research data},
	pages = {160018},
	file = {Full Text PDF:B\:\\Zotero\\storage\\4V3985Q2\\Wilkinson et al. - 2016 - The FAIR Guiding Principles for scientific data ma.pdf:application/pdf},
}

@article{toro_dmps_2024,
	title = {{DMPs} as {Management} {Tool} for {Intellectual} {Assets} by {SMART}-metrics},
	volume = {18},
	copyright = {Copyright (c) 2024 Federico Grasso Toro},
	issn = {1746-8256},
	url = {https://ijdc.net/index.php/ijdc/article/view/919},
	doi = {10.2218/ijdc.v18i1.919},
	abstract = {Data Management Plans (DMPs) are vital components of effective research data management (RDM). They serve not only as organisational tools but also as a structured framework dictating the collection, processing, sharing/publishing, and management of data throughout the research data life cycle. This can include existing data curation standards, the establishment of data handling protocols, and the creation, when necessary, of community curation policies. Therefore, DMPs present a unique opportunity to harmonise project management efforts for optimising the formulation and execution of project objectives.


To harness the full potential of DMPs as project management tools, the SMART approach (i.e., Specific, Measurable, Achievable, Relevant, and Time-bound) emerges as a compelling methodology. During the initial stage of the project proposal, drafted SMART metrics can offer a systematic approach to map work packages (WPs) and deliverables to the overarching project objectives. Then, the Principal Investigators (PIs) can ensure the consortia that all the project potential intellectual assets (i.e., expected research results) were considered properly, as well as their necessary timelines, resources, and execution. It becomes imperative for data stewards (DSs) and governance policymakers to educate and provide guidelines to researchers on the advantages of developing well-curated DMPs that align results with SMART metrics. This alignment ensures that every intellectual asset intended as a research result (e.g., intellectual properties, publications, datasets, and software) within the project is subject to rigorous drafted planning, execution, and accountability. 
Consequently, the risk of unforeseen setbacks and/or deviations from the original objectives is minimised, increasing the traceability and transparency of the research data life cycle. In addition, the integration of Technology Readiness Levels (TRLs) into this proposed enhanced DMP provides a systematic method to evaluate the maturity and readiness of technologies across scientific disciplines. Regular TRL assessments will allow PIs: (1) to monitor the WP progress, (2) to adapt research strategies if required, and (3) to ensure the projects remain in line with the drafted SMART metrics in the enhanced DMP before the project started. The TRLs can also help PIs maintain their focus on project milestones and specific tasks aligned with the original objectives, contributing to the overall success of their endeavours, while improving the transparency for the reporting and divulgation of the research results.


The paper presents the overall framework for enhancing DMPs as project management tools for any intellectual assets using SMART metrics and TRLs, as well as introducing suggested support services for data stewardship teams to assist PIs when implementing this novel framework effectively.},
	language = {en},
	number = {1},
	urldate = {2024-07-13},
	journal = {International Journal of Digital Curation},
	author = {Toro, Federico Grasso},
	month = jun,
	year = {2024},
	note = {Number: 1},
	keywords = {notion, curation, DCC, digital curation, digital preservation, IJDC, International Journal of Digital Curation, preservation},
	file = {Full Text PDF:B\:\\Zotero\\storage\\A3FEM4GU\\Toro - 2024 - DMPs as Management Tool for Intellectual Assets by.pdf:application/pdf},
}

@article{fleischer_teaching_2022,
	title = {{TEACHING} {AND} {LEARNING} {DATA}-{DRIVEN} {MACHINE} {LEARNING} {WITH} {EDUCATIONALLY} {DESIGNED} {JUPYTER} {NOTEBOOKS}},
	volume = {21},
	doi = {10.52041/serj.v21i2.61},
	abstract = {This study examines modelling with machine learning. In the context of a yearlong data science course, the study explores how upper secondary students apply machine learning with Jupyter Notebooks and document the modelling process as a computational essay incorporating the different steps of the CRISP-DM cycle. The students’ work is based on a teaching module about decision trees in machine learning and a worked example of such a modelling process. The study outlines the students’ performance in carrying out the machine learning technically and reasoning about bias in the data, different data preparation steps, the application context, and the resulting decision model. Furthermore, the context of the study and the theoretical backgrounds are presented.},
	journal = {STATISTICS EDUCATION RESEARCH JOURNAL},
	author = {Fleischer, Yannik and Biehler, Rolf and SCHULTE, CARSTEN},
	month = jul,
	year = {2022},
	keywords = {notion},
	pages = {7},
	file = {Full Text PDF:B\:\\Zotero\\storage\\W5RSXJS8\\Fleischer et al. - 2022 - TEACHING AND LEARNING DATA-DRIVEN MACHINE LEARNING.pdf:application/pdf},
}

@article{beg_using_2021,
	title = {Using {Jupyter} for {Reproducible} {Scientific} {Workflows}},
	volume = {PP},
	doi = {10.1109/MCSE.2021.3052101},
	abstract = {Literate computing has emerged as an important tool for computational studies and open science, with growing folklore of best practices. In this work, we report two case studies - one in computational magnetism and another in computational mathematics - where a dedicated software was exposed into the Jupyter environment. This enabled interactive and batch computational exploration of data, simulations, data analysis, and workflow documentation and outcome in Jupyter notebooks. In the first study, Ubermag drives existing computational micromagnetics software through a domain-specific language embedded in Python. In the second study, a dedicated Jupyter kernel interfaces with the GAP system for computational discrete algebra and its dedicated programming language. In light of these case studies, we discuss the benefits of this approach, including progress towards more reproducible and re-usable research results and outputs, notably through the use of infrastructure such as JupyterHub and Binder.},
	journal = {Computing in Science \& Engineering},
	author = {Beg, Marijan and Belin, Juliette and Kluyver, Thomas and Konovalov, Alexander and Ragan-Kelley, Min and Thiéry, Nicolas and Fangohr, H.},
	month = jan,
	year = {2021},
	keywords = {notion},
	pages = {1--1},
	file = {Full Text PDF:B\:\\Zotero\\storage\\3QPP5XG3\\Beg et al. - 2021 - Using Jupyter for Reproducible Scientific Workflow.pdf:application/pdf},
}

@misc{noauthor_blockchain_nodate,
	title = {The {Blockchain} {Revolution} and {Higher} {Education}},
	url = {https://er.educause.edu/articles/2017/3/the-blockchain-revolution-and-higher-education},
	abstract = {The blockchain provides a rich, secure, and transparent platform on which to create a global network for higher learning. This Internet of value can h},
	language = {en},
	urldate = {2024-07-13},
	journal = {EDUCAUSE Review},
	keywords = {notion},
	file = {erm1721.pdf:B\:\\Zotero\\storage\\FVVUSX48\\erm1721.pdf:application/pdf;Snapshot:B\:\\Zotero\\storage\\3RMMEFI2\\the-blockchain-revolution-and-higher-education.html:text/html},
}

@article{fernandes_data_2023,
	title = {Data {Preparation}: {A} {Technological} {Perspective} and {Review}},
	volume = {4},
	issn = {2661-8907},
	shorttitle = {Data {Preparation}},
	url = {https://doi.org/10.1007/s42979-023-01828-8},
	doi = {10.1007/s42979-023-01828-8},
	abstract = {Data analysis often uses data sets that were collected for different purposes. Indeed, new insights are often obtained by combining data sets that were produced independently of each other, for example by combining data from outside an organization with internal data resources. As a result, there is a need to discover, clean, integrate and restructure data into a form that is suitable for an intended analysis. Data preparation, also known as data wrangling, is the process by which data are transformed from its existing representation into a form that is suitable for analysis. In this paper, we review the state-of-the-art in data preparation, by: (i) describing functionalities that are central to data preparation pipelines, specifically profiling, matching, mapping, format transformation and data repair; and (ii) presenting how these capabilities surface in different approaches to data preparation, that involve programming, writing workflows, interacting with individual data sets as tables, and automating aspects of the process. These functionalities and approaches are illustrated with reference to a running example that combines open government data with web extracted real estate data.},
	language = {en},
	number = {4},
	urldate = {2024-07-13},
	journal = {SN Computer Science},
	author = {Fernandes, Alvaro A. A. and Koehler, Martin and Konstantinou, Nikolaos and Pankin, Pavel and Paton, Norman W. and Sakellariou, Rizos},
	month = jun,
	year = {2023},
	keywords = {notion, Data analysis, Data engineering, Data preparation, Data wrangling},
	pages = {425},
	file = {Full Text PDF:B\:\\Zotero\\storage\\64ZQABAC\\Fernandes et al. - 2023 - Data Preparation A Technological Perspective and .pdf:application/pdf},
}

@inproceedings{fleischer_jupyter_2022,
	title = {Jupyter {Notebooks} for {Teaching}, {Learning}, and {Doing} {Data} {Science}},
	doi = {10.52041/iase.icots11.T10E3},
	abstract = {We report on our work with students in our data science courses, focusing on the analysis of students’ results. This study represents an in-depth analysis of students’ creation and documentation of machine learning models. The students were supported by educationally designed Jupyter Notebooks, which are used as worked examples. Using the worked example, students document their results in a so-called computational essay. We examine which aspects of creating computational essays are difficult for students to find out how worked examples should be designed to support students without being too prescriptive. We analyze the computational essays produced by students and draw consequences for redesigning our worked example.},
	author = {Fleischer, Yannik and Hüsing, Sven and Biehler, Rolf and Podworny, Susanne and Schulte, Carsten},
	month = dec,
	year = {2022},
	keywords = {notion},
	file = {Full Text PDF:B\:\\Zotero\\storage\\Z7Y2HTTV\\Fleischer et al. - 2022 - Jupyter Notebooks for Teaching, Learning, and Doin.pdf:application/pdf},
}

@article{shen_interactive_2014,
	title = {Interactive notebooks: {Sharing} the code},
	volume = {515},
	copyright = {2014 Springer Nature Limited},
	issn = {1476-4687},
	shorttitle = {Interactive notebooks},
	url = {https://www.nature.com/articles/515151a},
	doi = {10.1038/515151a},
	abstract = {The free IPython notebook makes data analysis easier to record, understand and reproduce.},
	language = {en},
	number = {7525},
	urldate = {2024-07-13},
	journal = {Nature},
	author = {Shen, Helen},
	month = nov,
	year = {2014},
	note = {Publisher: Nature Publishing Group},
	keywords = {Information technology, Communication, notion, Publishing, Computational biology and bioinformatics},
	pages = {151--152},
	file = {Full Text PDF:B\:\\Zotero\\storage\\6SBVM96C\\Shen - 2014 - Interactive notebooks Sharing the code.pdf:application/pdf},
}

@article{granger_jupyter_2021-1,
	title = {Jupyter: {Thinking} and {Storytelling} {With} {Code} and {Data}},
	volume = {23},
	issn = {1558-366X},
	shorttitle = {Jupyter},
	url = {https://ieeexplore.ieee.org/document/9387490},
	doi = {10.1109/MCSE.2021.3059263},
	abstract = {Project Jupyter is an open-source project for interactive computing widely used in data science, machine learning, and scientific computing. We argue that even though Jupyter helps users perform complex, technical work, Jupyter itself solves problems that are fundamentally human in nature. Namely, Jupyter helps humans to think and tell stories with code and data. We illustrate this by describing three dimensions of Jupyter: 1) interactive computing; 2) computational narratives; and 3) the idea that Jupyter is more than software. We illustrate the impact of these dimensions on a community of practice in earth and climate science.},
	number = {2},
	urldate = {2024-07-13},
	journal = {Computing in Science \& Engineering},
	author = {Granger, Brian E. and Pérez, Fernando},
	month = mar,
	year = {2021},
	note = {Conference Name: Computing in Science \& Engineering},
	keywords = {notion, Data science, Machine learning, Meteorology, Open source software, Scientific computing},
	pages = {7--14},
	file = {IEEE Xplore Full Text PDF:B\:\\Zotero\\storage\\PK7YI9ZC\\Granger und Pérez - 2021 - Jupyter Thinking and Storytelling With Code and D.pdf:application/pdf},
}

@inproceedings{randles_using_2017,
	title = {Using the {Jupyter} {Notebook} as a {Tool} for {Open} {Science}: {An} {Empirical} {Study}},
	shorttitle = {Using the {Jupyter} {Notebook} as a {Tool} for {Open} {Science}},
	url = {https://ieeexplore.ieee.org/document/7991618},
	doi = {10.1109/JCDL.2017.7991618},
	abstract = {As scientific work becomes more computational and data-intensive, research processes and results become more difficult to interpret and reproduce. In this poster, we show how the Jupyter notebook, a tool originally designed as a free version of Mathematica notebooks, has evolved to become a robust tool for scientists to share code, associated computation, and documentation.},
	urldate = {2024-07-13},
	booktitle = {2017 {ACM}/{IEEE} {Joint} {Conference} on {Digital} {Libraries} ({JCDL})},
	author = {Randles, Bernadette M. and Pasquetto, Irene V. and Golshan, Milena S. and Borgman, Christine L.},
	month = jun,
	year = {2017},
	keywords = {Documentation, notion, Open Access, Software, Astrophysics, Interoperability, Tools},
	pages = {1--2},
	file = {IEEE Xplore Abstract Record:B\:\\Zotero\\storage\\QRGWC7UY\\7991618.html:text/html;Volltext:B\:\\Zotero\\storage\\976DY232\\Randles et al. - 2017 - Using the Jupyter Notebook as a Tool for Open Scie.pdf:application/pdf},
}

@article{perkel_why_2018,
	title = {Why {Jupyter} is data scientists’ computational notebook of choice},
	volume = {563},
	copyright = {2021 Nature},
	url = {https://www.nature.com/articles/d41586-018-07196-1},
	doi = {10.1038/d41586-018-07196-1},
	abstract = {An improved architecture and enthusiastic user base are driving uptake of the open-source web tool.},
	language = {en},
	number = {7729},
	urldate = {2024-07-13},
	journal = {Nature},
	author = {Perkel, Jeffrey M.},
	month = oct,
	year = {2018},
	note = {Bandiera\_abtest: a
Cg\_type: Toolbox
Publisher: Nature Publishing Group
Subject\_term: Computational biology and bioinformatics, Computer science},
	keywords = {Computer science, notion, Computational biology and bioinformatics},
	pages = {145--146},
	file = {Snapshot:B\:\\Zotero\\storage\\IQ54UF78\\d41586-018-07196-1.html:text/html},
}

@article{rule_ten_2019,
	title = {Ten simple rules for writing and sharing computational analyses in {Jupyter} {Notebooks}},
	volume = {15},
	issn = {1553-7358},
	url = {https://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1007007},
	doi = {10.1371/journal.pcbi.1007007},
	language = {en},
	number = {7},
	urldate = {2024-07-13},
	journal = {PLOS Computational Biology},
	author = {Rule, Adam and Birmingham, Amanda and Zuniga, Cristal and Altintas, Ilkay and Huang, Shih-Cheng and Knight, Rob and Moshiri, Niema and Nguyen, Mai H. and Rosenthal, Sara Brin and Pérez, Fernando and Rose, Peter W.},
	month = jul,
	year = {2019},
	note = {Publisher: Public Library of Science},
	keywords = {Metadata, notion, Reproducibility, Ecosystems, Analysts, Computer and information sciences, Computer hardware, Computer software, Graphical user interfaces},
	pages = {e1007007},
	file = {Full Text PDF:B\:\\Zotero\\storage\\5U6R6KEZ\\Rule et al. - 2019 - Ten simple rules for writing and sharing computati.pdf:application/pdf},
}

@book{howsam_cambridge_2014,
	address = {Cambridge},
	series = {Cambridge {Companions} to {Literature}},
	title = {The {Cambridge} {Companion} to the {History} of the {Book}},
	isbn = {978-1-107-02373-4},
	url = {https://www.cambridge.org/core/books/cambridge-companion-to-the-history-of-the-book/FFA8D93E16AF5853A79FC99CE755026D},
	abstract = {Throughout human history, the world's knowledge and fruits of the creative imagination have been produced, circulated and received through the medium of the material text. This Companion provides a wide-ranging account of the history of the book and its ways of thinking about works from ancient inscription to contemporary e-books, discussing thematic, chronological and methodological aspects of this interdisciplinary field. The first part considers book cultures from local, national and global perspectives. Part two, organized around the dynamic relationship between the material book and the mutable text, develops a loosely chronological narrative from early writing, through manuscript and early printing, to the institution of a mechanized book trade, and on to the globalization of publishing and the introduction of the electronic book. A third part takes a practical turn, discussing methods, sources and approaches: bibliographical, archival and reading experience methodologies, as well as pedagogical strategies.},
	urldate = {2024-07-16},
	publisher = {Cambridge University Press},
	editor = {Howsam, Leslie},
	year = {2014},
	doi = {10.1017/CCO9781139152242},
	file = {Snapshot:B\:\\Zotero\\storage\\8D69JZ9C\\FFA8D93E16AF5853A79FC99CE755026D.html:text/html},
}

@incollection{kluyver_jupyter_2016,
	title = {Jupyter {Notebooks} – a publishing format for reproducible computational workflows},
	url = {https://ebooks.iospress.nl/doi/10.3233/978-1-61499-649-1-87},
	urldate = {2024-07-13},
	booktitle = {Positioning and {Power} in {Academic} {Publishing}: {Players}, {Agents} and {Agendas}},
	publisher = {IOS Press},
	author = {Kluyver, Thomas and Ragan-Kelley, Benjamin and P\&\#233 and Rez, Fernando and Granger, Brian and Bussonnier, Matthias and Frederic, Jonathan and Kelley, Kyle and Hamrick, Jessica and Grout, Jason and Corlay, Sylvain and Ivanov, Paul and Avila, Dami\&\#225 and n and Abdalla, Safia and Willing, Carol and Team, Jupyter Development},
	year = {2016},
	doi = {10.3233/978-1-61499-649-1-87},
	keywords = {notion},
	pages = {87--90},
	file = {Full Text PDF:B\:\\Zotero\\storage\\P2KFA768\\Kluyver et al. - 2016 - Jupyter Notebooks – a publishing format for reprod.pdf:application/pdf},
}

@misc{li_unlocking_2024,
	title = {Unlocking {Insights}: {Semantic} {Search} in {Jupyter} {Notebooks}},
	shorttitle = {Unlocking {Insights}},
	url = {http://arxiv.org/abs/2402.13234},
	doi = {10.48550/arXiv.2402.13234},
	abstract = {Semantic search, a process aimed at delivering highly relevant search results by comprehending the searcher's intent and the contextual meaning of terms within a searchable dataspace, plays a pivotal role in information retrieval. In this paper, we investigate the application of large language models to enhance semantic search capabilities, specifically tailored for the domain of Jupyter Notebooks. Our objective is to retrieve generated outputs, such as figures or tables, associated functions and methods, and other pertinent information. We demonstrate a semantic search framework that achieves a comprehensive semantic understanding of the entire notebook's contents, enabling it to effectively handle various types of user queries. Key components of this framework include: 1). A data preprocessor is designed to handle diverse types of cells within Jupyter Notebooks, encompassing both markdown and code cells. 2). An innovative methodology is devised to address token size limitations that arise with code-type cells. We implement a finer-grained approach to data input, transitioning from the cell level to the function level, effectively resolving these issues.},
	urldate = {2024-07-16},
	publisher = {arXiv},
	author = {Li, Lan and Lv, Jinpeng},
	month = feb,
	year = {2024},
	note = {arXiv:2402.13234 [cs]},
	keywords = {notion, Computer Science - Computation and Language, Computer Science - Information Retrieval},
	file = {arXiv Fulltext PDF:B\:\\Zotero\\storage\\ZUWMJZFZ\\Li und Lv - 2024 - Unlocking Insights Semantic Search in Jupyter Not.pdf:application/pdf;arXiv.org Snapshot:B\:\\Zotero\\storage\\A85ZJ6VS\\2402.html:text/html},
}

@article{bouzenia_dypybench_2024,
	title = {{DyPyBench}: {A} {Benchmark} of {Executable} {Python} {Software}},
	volume = {1},
	shorttitle = {{DyPyBench}},
	url = {https://doi.org/10.1145/3643742},
	doi = {10.1145/3643742},
	abstract = {Python has emerged as one of the most popular programming languages, extensively utilized in domains such 
 
as machine learning, data analysis, and web applications. Python’s dynamic nature and extensive usage make 
 
it an attractive candidate for dynamic program analysis. However, unlike for other popular languages, there 
 
currently is no comprehensive benchmark suite of executable Python projects, which hinders the development 
 
of dynamic analyses. This work addresses this gap by presenting DyPyBench, the first benchmark of Python 
 
projects that is large-scale, diverse, ready-to-run (i.e., with fully configured and prepared test suites), and ready- 
 
to-analyze (by integrating with the DynaPyt dynamic analysis framework). The benchmark encompasses 50 
 
popular open-source projects from various application domains, with a total of 681k lines of Python code, 
 
and 30k test cases. DyPyBench enables various applications in testing and dynamic analysis, of which we 
 
explore three in this work: (i) Gathering dynamic call graphs and empirically comparing them to statically 
 
computed call graphs, which exposes and quantifies limitations of existing call graph construction techniques 
 
for Python. (ii) Using DyPyBench to build a training data set for LExecutor, a neural model that learns to 
 
predict values that otherwise would be missing at runtime. (iii) Using dynamically gathered execution traces 
 
to mine API usage specifications, which establishes a baseline for future work on specification mining for 
 
Python. We envision DyPyBench to provide a basis for other dynamic analyses and for studying the runtime 
 
behavior of Python code.},
	number = {FSE},
	urldate = {2024-07-16},
	journal = {DyPyBench Docker Image},
	author = {Bouzenia, Islem and Krishan, Bajaj Piyush and Pradel, Michael},
	month = jul,
	year = {2024},
	keywords = {notion},
	pages = {16:338--16:358},
}

@misc{samuel_fair_2024,
	title = {{FAIR} {Jupyter}: a knowledge graph approach to semantic sharing and granular exploration of a computational notebook reproducibility dataset},
	shorttitle = {{FAIR} {Jupyter}},
	url = {http://arxiv.org/abs/2404.12935},
	doi = {10.48550/arXiv.2404.12935},
	abstract = {The way in which data are shared can affect their utility and reusability. Here, we demonstrate how data that we had previously shared in bulk can be mobilized further through a knowledge graph that allows for much more granular exploration and interrogation. The original dataset is about the computational reproducibility of GitHub-hosted Jupyter notebooks associated with biomedical publications. It contains rich metadata about the publications, associated GitHub repositories and Jupyter notebooks, and the notebooks' reproducibility. We took this dataset, converted it into semantic triples and loaded these into a triple store to create a knowledge graph, FAIR Jupyter, that we made accessible via a web service. This enables granular data exploration and analysis through queries that can be tailored to specific use cases. Such queries may provide details about any of the variables from the original dataset, highlight relationships between them or combine some of the graph's content with materials from corresponding external resources. We provide a collection of example queries addressing a range of use cases in research and education. We also outline how sets of such queries can be used to profile specific content types, either individually or by class. We conclude by discussing how such a semantically enhanced sharing of complex datasets can both enhance their FAIRness, i.e., their findability, accessibility, interoperability, and reusability, and help identify and communicate best practices, particularly with regards to data quality, standardization, automation and reproducibility.},
	urldate = {2024-07-16},
	publisher = {arXiv},
	author = {Samuel, Sheeba and Mietchen, Daniel},
	month = apr,
	year = {2024},
	note = {arXiv:2404.12935 [cs]},
	keywords = {notion, Computer Science - Computational Engineering, Finance, and Science},
	file = {arXiv Fulltext PDF:B\:\\Zotero\\storage\\L75IXDJN\\Samuel und Mietchen - 2024 - FAIR Jupyter a knowledge graph approach to semant.pdf:application/pdf;arXiv.org Snapshot:B\:\\Zotero\\storage\\YU3TWCI8\\2404.html:text/html},
}

@article{lemmer-webber_using_2022,
	title = {Using {Programming} {Environments} for {Academic} {Research} and {Writing}},
	volume = {7},
	copyright = {Copyright (c) 2024 Morgan Lemmer-Webber},
	issn = {2531-6672},
	url = {https://archaeopresspublishing.com/ojs/index.php/groma/article/view/2428},
	doi = {10.32028/Groma-Issue-7-2022-2428},
	abstract = {Developer tools, such as code editors, markup languages, and revision control have a greater range of functions than word processors. As a scholar engaged in both Digital Humanities and the FOSS community, I have become increasingly interested in how these tools can be applied to research workflows. I wrote my dissertation in the editor Dr. Racket using Scribble, allowing me to incorporate code directly into my document. In this paper, I discuss the benefits and pitfalls of this decision.},
	language = {en},
	urldate = {2024-07-16},
	journal = {GROMA: Documenting Archaeology},
	author = {Lemmer-Webber, Morgan},
	year = {2022},
	keywords = {Digital humanities, notion, Markup languages, Revision control},
	pages = {97--106},
	file = {Full Text PDF:B\:\\Zotero\\storage\\IDEDLXY9\\Lemmer-Webber - 2022 - Using Programming Environments for Academic Resear.pdf:application/pdf},
}

@article{sayre_replicable_2019,
	title = {Replicable {Services} for {Reproducible} {Research}: {A} {Model} for {Academic} {Libraries}},
	volume = {80},
	copyright = {Copyright Franklin Sayre, Amy Riegelman},
	issn = {2150-6701},
	shorttitle = {Replicable {Services} for {Reproducible} {Research}},
	url = {https://crl.acrl.org/index.php/crl/article/view/16993},
	doi = {10.5860/crl.80.2.260},
	abstract = {Over the past decade, evidence from disciplines ranging from biology to economics has suggested that many scientific studies may not be reproducible. This has led to declarations in both the scientific and lay press that science is experiencing a “reproducibility crisis” and that this crisis has consequences for the extent to which students, faculty, and the public at large can trust research. Faculty build on these results with their own research, and students and the public use these results for everything from patient care to public policy. To build a model for how academic libraries can support reproducible research, the authors conducted a review of major guidelines from funders, publishers, and professional societies. Specific recommendations were extracted from guidelines and compared with existing academic library services and librarian expertise. The authors believe this review shows that many of the recommendations for improving reproducibility are core areas of academic librarianship, including data management, scholarly communication, and methodological support for systematic reviews and data-intensive research. By increasing our knowledge of disciplinary, journal, funder, and society perspectives on reproducibility, and reframing existing librarian expertise and services, academic librarians will be well positioned to be leaders in supporting reproducible research.},
	language = {en},
	number = {2},
	urldate = {2024-07-16},
	journal = {College \& Research Libraries},
	author = {Sayre, Franklin and Riegelman, Amy},
	month = mar,
	year = {2019},
	note = {Number: 2},
	pages = {260},
	file = {Full Text PDF:B\:\\Zotero\\storage\\BPX2XYEK\\Sayre und Riegelman - 2019 - Replicable Services for Reproducible Research A M.pdf:application/pdf},
}

@article{nelson_mapping_2021,
	title = {Mapping the discursive dimensions of the reproducibility crisis: {A} mixed methods analysis},
	volume = {16},
	issn = {1932-6203},
	shorttitle = {Mapping the discursive dimensions of the reproducibility crisis},
	url = {https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0254090},
	doi = {10.1371/journal.pone.0254090},
	abstract = {To those involved in discussions about rigor, reproducibility, and replication in science, conversation about the “reproducibility crisis” appear ill-structured. Seemingly very different issues concerning the purity of reagents, accessibility of computational code, or misaligned incentives in academic research writ large are all collected up under this label. Prior work has attempted to address this problem by creating analytical definitions of reproducibility. We take a novel empirical, mixed methods approach to understanding variation in reproducibility discussions, using a combination of grounded theory and correspondence analysis to examine how a variety of authors narrate the story of the reproducibility crisis. Contrary to expectations, this analysis demonstrates that there is a clear thematic core to reproducibility discussions, centered on the incentive structure of science, the transparency of methods and data, and the need to reform academic publishing. However, we also identify three clusters of discussion that are distinct from the main body of articles: one focused on reagents, another on statistical methods, and a final cluster focused on the heterogeneity of the natural world. Although there are discursive differences between scientific and popular articles, we find no strong differences in how scientists and journalists write about the reproducibility crisis. Our findings demonstrate the value of using qualitative methods to identify the bounds and features of reproducibility discourse, and identify distinct vocabularies and constituencies that reformers should engage with to promote change.},
	language = {en},
	number = {7},
	urldate = {2024-07-16},
	journal = {PLOS ONE},
	author = {Nelson, Nicole C. and Ichikawa, Kelsey and Chung, Julie and Malik, Momin M.},
	month = jul,
	year = {2021},
	note = {Publisher: Public Library of Science},
	keywords = {Reproducibility, Coding mechanisms, Factor analysis, Inertia, Psychology, Qualitative studies, Scientists, Semantics},
	pages = {e0254090},
	file = {Full Text PDF:B\:\\Zotero\\storage\\QYJ4ZW26\\Nelson et al. - 2021 - Mapping the discursive dimensions of the reproduci.pdf:application/pdf},
}

@article{begley_robust_2015,
	title = {Robust research: {Institutions} must do their part for reproducibility},
	volume = {525},
	copyright = {2015 Springer Nature Limited},
	issn = {1476-4687},
	shorttitle = {Robust research},
	url = {https://www.nature.com/articles/525025a},
	doi = {10.1038/525025a},
	abstract = {Tie funding to verified good institutional practice, and robust science will shoot up the agenda, say C. Glenn Begley, Alastair M. Buchan and Ulrich Dirnagl.},
	language = {en},
	number = {7567},
	urldate = {2024-07-16},
	journal = {Nature},
	author = {Begley, C. Glenn and Buchan, Alastair M. and Dirnagl, Ulrich},
	month = sep,
	year = {2015},
	note = {Publisher: Nature Publishing Group},
	keywords = {Institutions, Lab life, Research management},
	pages = {25--27},
	file = {Full Text PDF:B\:\\Zotero\\storage\\VRRAEVPB\\Begley et al. - 2015 - Robust research Institutions must do their part f.pdf:application/pdf},
}

@article{baker_over_2015,
	title = {Over half of psychology studies fail reproducibility test},
	copyright = {2015 Springer Nature Limited},
	issn = {1476-4687},
	url = {https://www.nature.com/articles/nature.2015.18248},
	doi = {10.1038/nature.2015.18248},
	abstract = {Largest replication study to date casts doubt on many published positive results.},
	language = {en},
	urldate = {2024-07-16},
	journal = {Nature},
	author = {Baker, Monya},
	month = aug,
	year = {2015},
	note = {Publisher: Nature Publishing Group},
	keywords = {Psychology, Research management, Authorship},
	file = {Full Text PDF:B\:\\Zotero\\storage\\2EMNG4IF\\Baker - 2015 - Over half of psychology studies fail reproducibili.pdf:application/pdf;Snapshot:B\:\\Zotero\\storage\\P6FHTXJJ\\nature.2015.html:text/html},
}

@misc{nestor_maslej_loredana_fattorini_raymond_perrault_vanessa_parli_anka_reuel_erik_brynjolfsson_john_etchemendy_katrina_ligett_terah_lyons_james_manyika_juan_carlos_niebles_yoav_shoham_russell_wald_and_jack_clark_ai_nodate,
	title = {{AI} {Index} {Report} 2024 – {Artificial} {Intelligence} {Index}},
	url = {https://aiindex.stanford.edu/report/},
	urldate = {2024-07-16},
	author = {Nestor Maslej, Loredana Fattorini, Raymond Perrault, Vanessa Parli, Anka Reuel, Erik Brynjolfsson, John Etchemendy, Katrina Ligett, Terah Lyons, James Manyika, Juan Carlos Niebles, Yoav Shoham, Russell Wald, {and} Jack Clark},
	keywords = {notion},
	file = {AI Index Report 2024 – Artificial Intelligence Index:B\:\\Zotero\\storage\\M35ZFNVE\\report.html:text/html;HAI_AI-Index-Report-2024.pdf:B\:\\Zotero\\storage\\BE22SSYV\\HAI_AI-Index-Report-2024.pdf:application/pdf},
}

@misc{liu_best_2024,
	title = {Best {Practices} and {Lessons} {Learned} on {Synthetic} {Data} for {Language} {Models}},
	url = {http://arxiv.org/abs/2404.07503},
	doi = {10.48550/arXiv.2404.07503},
	abstract = {The success of AI models relies on the availability of large, diverse, and high-quality datasets, which can be challenging to obtain due to data scarcity, privacy concerns, and high costs. Synthetic data has emerged as a promising solution by generating artificial data that mimics real-world patterns. This paper provides an overview of synthetic data research, discussing its applications, challenges, and future directions. We present empirical evidence from prior art to demonstrate its effectiveness and highlight the importance of ensuring its factuality, fidelity, and unbiasedness. We emphasize the need for responsible use of synthetic data to build more powerful, inclusive, and trustworthy language models.},
	urldate = {2024-07-16},
	publisher = {arXiv},
	author = {Liu, Ruibo and Wei, Jerry and Liu, Fangyu and Si, Chenglei and Zhang, Yanzhe and Rao, Jinmeng and Zheng, Steven and Peng, Daiyi and Yang, Diyi and Zhou, Denny and Dai, Andrew M.},
	month = apr,
	year = {2024},
	note = {arXiv:2404.07503 [cs]},
	keywords = {Computer Science - Computation and Language},
	file = {arXiv Fulltext PDF:B\:\\Zotero\\storage\\9SNH4YQ2\\Liu et al. - 2024 - Best Practices and Lessons Learned on Synthetic Da.pdf:application/pdf;arXiv.org Snapshot:B\:\\Zotero\\storage\\8626P5LB\\2404.html:text/html},
}

@misc{marwala_use_2023,
	title = {The {Use} of {Synthetic} {Data} to {Train} {AI} {Models}: {Opportunities} and {Risks} for {Sustainable} {Development}},
	shorttitle = {The {Use} of {Synthetic} {Data} to {Train} {AI} {Models}},
	url = {http://arxiv.org/abs/2309.00652},
	doi = {10.48550/arXiv.2309.00652},
	abstract = {In the current data driven era, synthetic data, artificially generated data that resembles the characteristics of real world data without containing actual personal information, is gaining prominence. This is due to its potential to safeguard privacy, increase the availability of data for research, and reduce bias in machine learning models. This paper investigates the policies governing the creation, utilization, and dissemination of synthetic data. Synthetic data can be a powerful instrument for protecting the privacy of individuals, but it also presents challenges, such as ensuring its quality and authenticity. A well crafted synthetic data policy must strike a balance between privacy concerns and the utility of data, ensuring that it can be utilized effectively without compromising ethical or legal standards. Organizations and institutions must develop standardized guidelines and best practices in order to capitalize on the benefits of synthetic data while addressing its inherent challenges.},
	urldate = {2024-07-16},
	publisher = {arXiv},
	author = {Marwala, Tshilidzi and Fournier-Tombs, Eleonore and Stinckwich, Serge},
	month = aug,
	year = {2023},
	note = {arXiv:2309.00652 [cs]},
	keywords = {Computer Science - Artificial Intelligence, Computer Science - Machine Learning},
	file = {arXiv Fulltext PDF:B\:\\Zotero\\storage\\FRPHGTL9\\Marwala et al. - 2023 - The Use of Synthetic Data to Train AI Models Oppo.pdf:application/pdf;arXiv.org Snapshot:B\:\\Zotero\\storage\\X8DS4L6X\\2309.html:text/html},
}

@misc{guo_generative_2024,
	title = {Generative {AI} for {Synthetic} {Data} {Generation}: {Methods}, {Challenges} and the {Future}},
	shorttitle = {Generative {AI} for {Synthetic} {Data} {Generation}},
	url = {http://arxiv.org/abs/2403.04190},
	doi = {10.48550/arXiv.2403.04190},
	abstract = {The recent surge in research focused on generating synthetic data from large language models (LLMs), especially for scenarios with limited data availability, marks a notable shift in Generative Artificial Intelligence (AI). Their ability to perform comparably to real-world data positions this approach as a compelling solution to low-resource challenges. This paper delves into advanced technologies that leverage these gigantic LLMs for the generation of task-specific training data. We outline methodologies, evaluation techniques, and practical applications, discuss the current limitations, and suggest potential pathways for future research.},
	urldate = {2024-07-16},
	publisher = {arXiv},
	author = {Guo, Xu and Chen, Yiqiang},
	month = mar,
	year = {2024},
	note = {arXiv:2403.04190 [cs]},
	keywords = {Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, I.2.0},
	file = {arXiv Fulltext PDF:B\:\\Zotero\\storage\\M66JYNKG\\Guo und Chen - 2024 - Generative AI for Synthetic Data Generation Metho.pdf:application/pdf;arXiv.org Snapshot:B\:\\Zotero\\storage\\CG3JKX3B\\2403.html:text/html},
}

@book{noauthor_handbuch_2013,
	title = {Handbuch {Methoden} der {Bibliotheks}- und {Informationswissenschaft}: {Bibliotheks}-, {Benutzerforschung}, {Informationsanalyse}},
	copyright = {De Gruyter expressly reserves the right to use all content for commercial text and data mining within the meaning of Section 44b of the German Copyright Act.},
	isbn = {978-3-11-025554-6},
	shorttitle = {Handbuch {Methoden} der {Bibliotheks}- und {Informationswissenschaft}},
	url = {https://www.degruyter.com/document/doi/10.1515/9783110255546/html},
	abstract = {Dieses Handbuch stellt in Beiträgen der führenden Experten qualitative und quantitative Forschungsmethoden des Faches vor. Behandelt werden sowohl fachspezifische Methoden wie auch Methoden der Sozialwissenschaften und der Informatik: Entwicklung von Forschungsdesigns, Befragungen, Nutzungsmessung von Websites, Benutzerforschung, Ethnomethodologie, Methoden der Informetrie, Evaluation von Informationssystemen, Inhaltsanalyse, Diskursanalyse, hermeneutische Methoden, Delphi-Methode, Methoden der buchwissenschaftlichen Forschung, Forschungsmethoden für historische Fragestellungen, Methoden der Lese- und Mediennutzungsforschung. Auch neue Möglichkeiten der Unterstützung durch Online-Tools (z.B. Online-Befragungen) werden erklärt.},
	language = {de},
	urldate = {2024-07-16},
	publisher = {De Gruyter Saur},
	month = may,
	year = {2013},
	doi = {10.1515/9783110255546},
	keywords = {notion, Benutzerforschung, Bibliotheksforschung, Diskursanalyse, Informationsanalyse, Informetrie, Mediennutzungsforschung},
	file = {Full Text PDF:B\:\\Zotero\\storage\\WLQRPUCF\\2013 - Handbuch Methoden der Bibliotheks- und Information.pdf:application/pdf},
}

@book{noauthor_grundlagen_2022,
	title = {Grundlagen der {Informationswissenschaft}},
	copyright = {De Gruyter expressly reserves the right to use all content for commercial text and data mining within the meaning of Section 44b of the German Copyright Act.},
	isbn = {978-3-11-076904-3},
	url = {https://www.degruyter.com/document/doi/10.1515/9783110769043/html},
	abstract = {Die 7. Ausgabe der "Grundlagen der praktischen Information und Dokumentation" (Erstausgabe 1972) heißt jetzt: „Grundlagen der Informationswissenschaft". Der Bezug zur Praxis und zur Ausbildung bleibt erhalten, aber der neue Titel trägt dem Rechnung, dass die wissenschaftliche theoretische Absicherung für alle Bereiche von Wissen und Information, nicht nur in der Fachinformation, sondern auch in den Informationsdiensten des Internet immer wichtiger wird. Für die Grundlagen sind 73 Artikel in 6 Hauptkapiteln vorgesehen. Viele Themen werden zum ersten Mal behandelt, z.B. Information und Emotion, Informationelle Selbstbestimmung, Informationspathologien. Alle Beiträge sind neu verfasst.},
	language = {de},
	urldate = {2024-07-16},
	publisher = {De Gruyter Saur},
	month = dec,
	year = {2022},
	doi = {10.1515/9783110769043},
	keywords = {Information und Dokumentation, notion},
	file = {Full Text PDF:B\:\\Zotero\\storage\\BPVNIJCQ\\2022 - Grundlagen der Informationswissenschaft.pdf:application/pdf},
}

@article{candela_checklist_2023-1,
	title = {A {Checklist} to {Publish} {Collections} as {Data} in {GLAM} {Institutions}},
	issn = {2514-9342, 2514-9342},
	url = {http://arxiv.org/abs/2304.02603},
	doi = {10.1108/GKMC-06-2023-0195},
	abstract = {Large-scale digitization in Galleries, Libraries, Archives and Museums (GLAM) created the conditions for providing access to collections as data. It opened new opportunities to explore, use and reuse digital collections. Strong proponents of collections as data are the Innovation Labs which provided numerous examples of publishing datasets under open licenses in order to reuse digital content in novel and creative ways. Within the current transition to the emerging data spaces, clouds for cultural heritage and open science, the need to identify practices which support more GLAM institutions to offer datasets becomes a priority, especially within the smaller and medium-sized institutions. This paper answers the need to support GLAM institutions in facilitating the transition into publishing their digital content and to introduce collections as data services; this will also help their future efficient contribution to data spaces and cultural heritage clouds. It offers a checklist that can be used for both creating and evaluating digital collections suitable for computational use. The main contributions of this paper are i) a methodology for devising a checklist to create and assess digital collections for computational use; ii) a checklist to create and assess digital collections suitable for use with computational methods; iii) the assessment of the checklist against the practice of institutions innovating in the Collections as data field; and iv) the results obtained after the application and recommendations for the use of the checklist in GLAM institutions.},
	urldate = {2024-07-16},
	journal = {Global Knowledge, Memory and Communication},
	author = {Candela, Gustavo and Gabriëls, Nele and Chambers, Sally and Pham, Thuy-An and Ames, Sarah and Fitzgerald, Neil and Hofmann, Katrine and Harbo, Victor and Potter, Abigail and Ferriter, Meghan and Manchester, Eileen and Irollo, Alba and Van Keer, Ellen and Mahey, Mahendra and Holownia, Olga and Dobreva, Milena},
	month = nov,
	year = {2023},
	note = {arXiv:2304.02603 [cs]},
	keywords = {Computer Science - Digital Libraries, notion},
	file = {arXiv Fulltext PDF:B\:\\Zotero\\storage\\H945HKVK\\Candela et al. - 2023 - A Checklist to Publish Collections as Data in GLAM.pdf:application/pdf;arXiv.org Snapshot:B\:\\Zotero\\storage\\XKZELR8E\\2304.html:text/html},
}

@misc{riedl_computational_2016,
	title = {Computational {Narrative} {Intelligence}: {A} {Human}-{Centered} {Goal} for {Artificial} {Intelligence}},
	shorttitle = {Computational {Narrative} {Intelligence}},
	url = {http://arxiv.org/abs/1602.06484},
	doi = {10.48550/arXiv.1602.06484},
	abstract = {Narrative intelligence is the ability to craft, tell, understand, and respond affectively to stories. We argue that instilling artificial intelligences with computational narrative intelligence affords a number of applications beneficial to humans. We lay out some of the machine learning challenges necessary to solve to achieve computational narrative intelligence. Finally, we argue that computational narrative is a practical step towards machine enculturation, the teaching of sociocultural values to machines.},
	urldate = {2024-07-17},
	publisher = {arXiv},
	author = {Riedl, Mark O.},
	month = feb,
	year = {2016},
	note = {arXiv:1602.06484 [cs]},
	keywords = {Computer Science - Artificial Intelligence},
	file = {arXiv Fulltext PDF:B\:\\Zotero\\storage\\VHHSLR7Y\\Riedl - 2016 - Computational Narrative Intelligence A Human-Cent.pdf:application/pdf;arXiv.org Snapshot:B\:\\Zotero\\storage\\PXNU26IM\\1602.html:text/html},
}

@article{keith_norambuena_survey_2023,
	title = {A {Survey} on {Event}-{Based} {News} {Narrative} {Extraction}},
	volume = {55},
	issn = {0360-0300},
	url = {https://doi.org/10.1145/3584741},
	doi = {10.1145/3584741},
	abstract = {Narratives are fundamental to our understanding of the world, providing us with a natural structure for knowledge representation over time. Computational narrative extraction is a subfield of artificial intelligence that makes heavy use of information retrieval and natural language processing techniques. Despite the importance of computational narrative extraction, relatively little scholarly work exists on synthesizing previous research and strategizing future research in the area. In particular, this article focuses on extracting news narratives from an event-centric perspective. Extracting narratives from news data has multiple applications in understanding the evolving information landscape. This survey presents an extensive study of research in the area of event-based news narrative extraction. In particular, we screened more than 900 articles, which yielded 54 relevant articles. These articles are synthesized and organized by representation model, extraction criteria, and evaluation approaches. Based on the reviewed studies, we identify recent trends, open challenges, and potential research lines.},
	number = {14s},
	urldate = {2024-07-17},
	journal = {ACM Comput. Surv.},
	author = {Keith Norambuena, Brian Felipe and Mitra, Tanushree and North, Chris},
	month = jul,
	year = {2023},
	pages = {300:1--300:39},
	file = {Volltext:B\:\\Zotero\\storage\\L866WI3I\\Keith Norambuena et al. - 2023 - A Survey on Event-Based News Narrative Extraction.pdf:application/pdf},
}

@inproceedings{piper_narrative_2021,
	address = {Online and Punta Cana, Dominican Republic},
	title = {Narrative {Theory} for {Computational} {Narrative} {Understanding}},
	url = {https://aclanthology.org/2021.emnlp-main.26},
	doi = {10.18653/v1/2021.emnlp-main.26},
	abstract = {Over the past decade, the field of natural language processing has developed a wide array of computational methods for reasoning about narrative, including summarization, commonsense inference, and event detection. While this work has brought an important empirical lens for examining narrative, it is by and large divorced from the large body of theoretical work on narrative within the humanities, social and cognitive sciences. In this position paper, we introduce the dominant theoretical frameworks to the NLP community, situate current research in NLP within distinct narratological traditions, and argue that linking computational work in NLP to theory opens up a range of new empirical questions that would both help advance our understanding of narrative and open up new practical applications.},
	urldate = {2024-07-17},
	booktitle = {Proceedings of the 2021 {Conference} on {Empirical} {Methods} in {Natural} {Language} {Processing}},
	publisher = {Association for Computational Linguistics},
	author = {Piper, Andrew and So, Richard Jean and Bamman, David},
	editor = {Moens, Marie-Francine and Huang, Xuanjing and Specia, Lucia and Yih, Scott Wen-tau},
	month = nov,
	year = {2021},
	pages = {298--311},
	file = {Full Text PDF:B\:\\Zotero\\storage\\H2447JLM\\Piper et al. - 2021 - Narrative Theory for Computational Narrative Under.pdf:application/pdf},
}

@article{borrego_crossref_2023-1,
	title = {Crossref as a bibliographic discovery tool in the arts and humanities},
	volume = {4},
	issn = {2641-3337},
	url = {https://doi.org/10.1162/qss_a_00240},
	doi = {10.1162/qss_a_00240},
	abstract = {Crossref is an official digital object identifier registration agency launched in 2000 as a joint effort between publishers to allow persistent cross-publisher citation linking in online academic journals. Our study explores the coverage of Crossref for tracking literature in the arts and humanities, which usually has a national or regional focus and targets domestic audiences. An analysis of the coverage of ERIH PLUS journals shows that Crossref indexes more sources than Scopus and includes additional journals from Eastern and Southern Europe and the Global South. Crossref limitations arise when analyzing the amount of metadata deposited by publishers. Just two-thirds of the journals deposit abstracts and ORCIDs and around a third deposit affiliations. The level of metadata completion for individual articles is lower, with major differences depending on the language of the document. Just half of the journals actually deposit references. As a result, Scopus retrieves more citations than Crossref, except for publications in German and French. Crossref represents a promising bibliographic discovery tool in the arts and humanities but is in need of improvement regarding the level of metadata completion.},
	number = {1},
	urldate = {2024-07-17},
	journal = {Quantitative Science Studies},
	author = {Borrego, Ángel and Ardanuy, Jordi and Arguimbau, Llorenç},
	month = mar,
	year = {2023},
	keywords = {notion},
	pages = {91--104},
	file = {Full Text PDF:B\:\\Zotero\\storage\\QCVYWVRX\\Borrego et al. - 2023 - Crossref as a bibliographic discovery tool in the .pdf:application/pdf;Snapshot:B\:\\Zotero\\storage\\SGQKNZ6J\\Crossref-as-a-bibliographic-discovery-tool-in-the.html:text/html},
}

@article{ioannidis_why_2005,
	title = {Why {Most} {Published} {Research} {Findings} {Are} {False}},
	volume = {2},
	issn = {1549-1676},
	url = {https://journals.plos.org/plosmedicine/article?id=10.1371/journal.pmed.0020124},
	doi = {10.1371/journal.pmed.0020124},
	abstract = {Summary There is increasing concern that most current published research findings are false. The probability that a research claim is true may depend on study power and bias, the number of other studies on the same question, and, importantly, the ratio of true to no relationships among the relationships probed in each scientific field. In this framework, a research finding is less likely to be true when the studies conducted in a field are smaller; when effect sizes are smaller; when there is a greater number and lesser preselection of tested relationships; where there is greater flexibility in designs, definitions, outcomes, and analytical modes; when there is greater financial and other interest and prejudice; and when more teams are involved in a scientific field in chase of statistical significance. Simulations show that for most study designs and settings, it is more likely for a research claim to be false than true. Moreover, for many current scientific fields, claimed research findings may often be simply accurate measures of the prevailing bias. In this essay, I discuss the implications of these problems for the conduct and interpretation of research.},
	language = {en},
	number = {8},
	urldate = {2024-07-17},
	journal = {PLOS Medicine},
	author = {Ioannidis, John P. A.},
	month = aug,
	year = {2005},
	note = {Publisher: Public Library of Science},
	keywords = {Cancer risk factors, Finance, Genetic epidemiology, Genetics of disease, Metaanalysis, Randomized controlled trials, Research design, Schizophrenia},
	pages = {e124},
	file = {Full Text PDF:B\:\\Zotero\\storage\\XLHT32AX\\Ioannidis - 2005 - Why Most Published Research Findings Are False.pdf:application/pdf},
}

@article{baker_1500_2016,
	title = {1,500 scientists lift the lid on reproducibility},
	volume = {533},
	copyright = {2016 Springer Nature Limited},
	issn = {1476-4687},
	url = {https://www.nature.com/articles/533452a},
	doi = {10.1038/533452a},
	abstract = {Survey sheds light on the ‘crisis’ rocking research.},
	language = {en},
	number = {7604},
	urldate = {2024-07-17},
	journal = {Nature},
	author = {Baker, Monya},
	month = may,
	year = {2016},
	note = {Publisher: Nature Publishing Group},
	keywords = {Publishing, Research management, Peer review},
	pages = {452--454},
	file = {Full Text PDF:B\:\\Zotero\\storage\\X87X5BG2\\Baker - 2016 - 1,500 scientists lift the lid on reproducibility.pdf:application/pdf;Snapshot:B\:\\Zotero\\storage\\GCJ7ANMD\\533452a.html:text/html},
}

@book{kaushik_handbook_nodate,
	title = {Handbook of {Research} on {Emerging} {Trends} and {Technologies} in {Library} and {Information} {Science}},
	copyright = {Access limited to members},
	isbn = {978-1-5225-9825-1},
	url = {https://www.igi-global.com/book/handbook-research-emerging-trends-technologies/www.igi-global.com/book/handbook-research-emerging-trends-technologies/223984},
	abstract = {With the perpetual advancements of technology, library and information science professionals are tasked with understanding these technologies and providing accurate and comprehensive information to other potential users. These professionals must develop best practices for understanding these technol...},
	language = {English},
	urldate = {2024-07-17},
	publisher = {IGI Global},
	author = {Kaushik, Anna and Kumar, Ashok and Biswas, Payel},
	note = {Publication Title: https://services.igi-global.com/resolvedoi/resolve.aspx?doi=10.4018/978-1-5225-9825-1},
	file = {Snapshot:B\:\\Zotero\\storage\\XDH78PUZ\\223984.html:text/html},
}

@book{mcdonald_encyclopedia_2019,
	address = {Boca Raton},
	edition = {4},
	title = {Encyclopedia of {Library} and {Information} {Sciences}},
	isbn = {978-1-315-11614-3},
	abstract = {The Encyclopedia of Library and Information Sciences, comprising of seven volumes, now in its fourth edition, compiles the contributions of major researchers and practitioners and explores the cultural institutions of more than 30 countries. This major reference presents over 550 entries extensively reviewed for accuracy in seven print volumes or online. The new fourth edition, which includes 55 new entires and 60 revised entries, continues to reflect the growing convergence among the disciplines that influence information and the cultural record, with coverage of the latest topics as well as classic articles of historical and theoretical importance.},
	publisher = {CRC Press},
	editor = {McDonald, John D. and Levine-Clark, Michael},
	month = jul,
	year = {2019},
	doi = {10.1081/E-ELIS4},
}

@article{joyeux-prunel_digital_2024-2,
	title = {Digital humanities in the era of digital reproducibility: towards a fairest and post-computational framework},
	volume = {6},
	issn = {2524-7840},
	shorttitle = {Digital humanities in the era of digital reproducibility},
	url = {https://doi.org/10.1007/s42803-023-00079-6},
	doi = {10.1007/s42803-023-00079-6},
	abstract = {Reproducibility has become a requirement in the hard sciences, and its adoption is gradually extending to the digital humanities. The FAIR criteria and the publication of data papers are both indicative of this trend. However, the question that arises is whether the strict prerequisites of digital reproducibility serve only to exclude digital humanities from broader humanities scholarship. Instead of adopting a binary approach, an alternative method acknowledges the unique features of the objects, inquiries, and techniques of the humanities, including digital humanities, as well as the social and historical contexts in which the concept of reproducibility has developed in the human sciences. In the first part of this paper, I propose to examine the historical and disciplinary context in which the concept of reproducibility has developed within the human sciences, and the disciplinary struggles involved in this process, especially for art history and literature studies. In the second part, I will explore the question of reproducibility through two art history research projects that utilize various computational methods. I argue that issues of corpus, method, and interpretation cannot be separated, rendering a procedural definition of reproducibility impractical. Consequently, I propose the adoption of ‘post-computational reproducibility’, which is based on FAIREST criteria as far as digital corpora are concerned (FAIR + Ethics and Expertise, Source mention + Time-Stamp), but extended to include further sources that confirm computational results with other non-computational methodologies.},
	language = {en},
	number = {1},
	urldate = {2024-07-17},
	journal = {International Journal of Digital Humanities},
	author = {Joyeux-Prunel, Béatrice},
	month = apr,
	year = {2024},
	keywords = {Digital humanities, Data, Digital art history, Distant reading, FAIR principles, Reproducibility},
	pages = {23--43},
	file = {Full Text PDF:B\:\\Zotero\\storage\\KX53NGZB\\Joyeux-Prunel - 2024 - Digital humanities in the era of digital reproduci.pdf:application/pdf},
}

@article{piper_there_2016,
	title = {There {Will} {Be} {Numbers}},
	volume = {1},
	url = {https://culturalanalytics.org/article/11062},
	doi = {10.22148/16.006},
	abstract = {Beginnings are always hard to trace. They tend to belong more to the realm of myth, as Tristram Shandy well knew. At what point did it become necessary, in the sense of unavoidable, to use computation to study culture? Was it a certain polemic, new kinds of data (Google Books, Project Gutenberg), the rise of analytical techniques (natural language processing, machine learning), technologies such as the internet or social media, or simply that powerful social actor called “critical mass”.},
	language = {en},
	number = {1},
	urldate = {2024-07-17},
	journal = {Journal of Cultural Analytics},
	author = {Piper, Andrew},
	month = may,
	year = {2016},
	file = {Full Text PDF:B\:\\Zotero\\storage\\YC5KJ7M8\\Piper - 2016 - There Will Be Numbers.pdf:application/pdf},
}

@article{jaillant_unlocking_2022,
	title = {Unlocking digital archives: cross-disciplinary perspectives on {AI} and born-digital data},
	volume = {37},
	issn = {1435-5655},
	shorttitle = {Unlocking digital archives},
	url = {https://doi.org/10.1007/s00146-021-01367-x},
	doi = {10.1007/s00146-021-01367-x},
	abstract = {Co-authored by a Computer Scientist and a Digital Humanist, this article examines the challenges faced by cultural heritage institutions in the digital age, which have led to the closure of the vast majority of born-digital archival collections. It focuses particularly on cultural organizations such as libraries, museums and archives, used by historians, literary scholars and other Humanities scholars. Most born-digital records held by cultural organizations are inaccessible due to privacy, copyright, commercial and technical issues. Even when born-digital data are publicly available (as in the case of web archives), users often need to physically travel to repositories such as the British Library or the Bibliothèque Nationale de France to consult web pages. Provided with enough sample data from which to learn and train their models, AI, and more specifically machine learning algorithms, offer the opportunity to improve and ease the access to digital archives by learning to perform complex human tasks. These vary from providing intelligent support for searching the archives to automate tedious and time-consuming tasks.  In this article, we focus on sensitivity review as a practical solution to unlock digital archives that would allow archival institutions to make non-sensitive information available. This promise to make archives more accessible does not come free of warnings for potential pitfalls and risks: inherent errors, "black box" approaches that make the algorithm inscrutable, and risks related to bias, fake, or partial information. Our central argument is that AI can deliver its promise to make digital archival collections more accessible, but it also creates new challenges - particularly in terms of ethics. In the conclusion, we insist on the importance of fairness, accountability and transparency in the process of making digital archives more accessible.},
	language = {en},
	number = {3},
	urldate = {2024-07-17},
	journal = {AI \& SOCIETY},
	author = {Jaillant, Lise and Caputo, Annalina},
	month = sep,
	year = {2022},
	keywords = {Artificial Intelligence, Born-digital archives, Copyright, Ethics, Privacy, Sensitivity Review},
	pages = {823--835},
	file = {Full Text PDF:B\:\\Zotero\\storage\\566KRDNK\\Jaillant und Caputo - 2022 - Unlocking digital archives cross-disciplinary per.pdf:application/pdf},
}

@article{colavizza_archives_2021,
	title = {Archives and {AI}: {An} {Overview} of {Current} {Debates} and {Future} {Perspectives}},
	volume = {15},
	issn = {1556-4673},
	shorttitle = {Archives and {AI}},
	url = {https://doi.org/10.1145/3479010},
	doi = {10.1145/3479010},
	abstract = {The digital transformation is turning archives, both old and new, into data. As a consequence, automation in the form of artificial intelligence techniques is increasingly applied both to scale traditional recordkeeping activities, and to experiment with novel ways to capture, organise, and access records. We survey recent developments at the intersection of Artificial Intelligence and archival thinking and practice. Our overview of this growing body of literature is organised through the lenses of the Records Continuum model. We find four broad themes in the literature on archives and artificial intelligence: theoretical and professional considerations, the automation of recordkeeping processes, organising and accessing archives, and novel forms of digital archives. We conclude by underlining emerging trends and directions for future work, which include the application of recordkeeping principles to the very data and processes that power modern artificial intelligence and a more structural—yet critically aware—integration of artificial intelligence into archival systems and practice.},
	number = {1},
	urldate = {2024-07-17},
	journal = {J. Comput. Cult. Herit.},
	author = {Colavizza, Giovanni and Blanke, Tobias and Jeurgens, Charles and Noordegraaf, Julia},
	month = dec,
	year = {2021},
	pages = {4:1--4:15},
	file = {Volltext:B\:\\Zotero\\storage\\XH8IENHN\\Colavizza et al. - 2021 - Archives and AI An Overview of Current Debates an.pdf:application/pdf},
}

@article{ranade_computational_2022,
	title = {Computational {Understanding} of {Narratives}: {A} {Survey}},
	volume = {10},
	issn = {2169-3536},
	shorttitle = {Computational {Understanding} of {Narratives}},
	url = {https://ieeexplore.ieee.org/document/9882117},
	doi = {10.1109/ACCESS.2022.3205314},
	abstract = {Storytelling, and the delivery of societal narratives, enable human beings to communicate, connect, and understand one another and the world around them. Narratives can be defined as spoken, visual, or written accounts of interconnected events and actors, generally evolving through some notion of time. Today, information is typically conveyed over online communication mediums, such as social media and blogging websites. Consequently, the act of narrative delivery itself has shifted from simply imparting information through self-contained structures such as books, to more fragmented structures, such as social media websites, where evolving story events are constructed over multiple online sources. Ubiquitous online conversation can manifest into sophisticated narratives that have the potential to influence wide-spread user interpretations of cultural sentiments, attitudes, values, as well as geopolitical events and facts. As a result, narratives are actively being used as strategic tools for shaping local events, promoting collective opinions, and asserting ideologies and propaganda, making them sources of interest for identifying themes, intentions, and goals across multiple communities and potential adversaries. Identifying fragmented narratives, extracting thematic and temporal components that constitute evolving narratives, and locating signs of active rhetoric framing tactics, are difficult to detect and analyze without large-scale automation. This problem can be addressed through the use of natural language understanding technologies. Our goal is to document and discuss methods to efficiently construct, extract, and detect evolving online narratives. The novel contribution of this paper is the formal collation and documentation of such technologies and research areas, as well as extensive discussion on open research challenges and goals in the definition, identification, construction, generation, and representation of online narratives. To our knowledge, there is currently no existing formal documentation that organizes and provides extended discussion on narrative understanding research areas and open challenges.},
	urldate = {2024-07-17},
	journal = {IEEE Access},
	author = {Ranade, Priyanka and Dey, Sanorita and Joshi, Anupam and Finin, Tim},
	year = {2022},
	note = {Conference Name: IEEE Access},
	keywords = {Documentation, Blogs, misinformation, Visualization, Rhetoric, Data mining, Semantics, computational semantic analysis, Cultural differences, Global communication, journalism, narrative extraction, narrative generation, Narratives, natural language understanding, Natural languages, Oral communication, propaganda, Social networking (online), story evolution, storytelling, Videos},
	pages = {101575--101594},
	file = {IEEE Xplore Abstract Record:B\:\\Zotero\\storage\\KM6W6A4H\\9882117.html:text/html;IEEE Xplore Full Text PDF:B\:\\Zotero\\storage\\XC2K2CQA\\Ranade et al. - 2022 - Computational Understanding of Narratives A Surve.pdf:application/pdf},
}

@misc{jupyter_project_2023,
	title = {Project {Jupyter}: {Computational} {Narratives} as the {Engine} of {Collaborative} {Data} {Science}},
	shorttitle = {Project {Jupyter}},
	url = {https://blog.jupyter.org/project-jupyter-computational-narratives-as-the-engine-of-collaborative-data-science-2b5fb94c3c58},
	abstract = {Note: this is the full text of the grant proposal that was funded by the Helmsley Trust, the Gordon and Betty Moore Foundation and the Alfred P. Sloan Foundation on April 2015, as described on these…},
	language = {en},
	urldate = {2024-07-17},
	journal = {Medium},
	author = {Jupyter, Project},
	month = aug,
	year = {2023},
	file = {Snapshot:B\:\\Zotero\\storage\\RKXSWDNN\\project-jupyter-computational-narratives-as-the-engine-of-collaborative-data-science-2b5fb94c3c.html:text/html},
}

@inproceedings{ogata_computational_2016,
	series = {Advances in {Linguistics} and {Communication} {Studies}},
	title = {Computational and {Cognitive} {Approaches} to {Narratology}:},
	isbn = {978-1-5225-0432-0 978-1-5225-0433-7},
	shorttitle = {Computational and {Cognitive} {Approaches} to {Narratology}},
	url = {http://services.igi-global.com/resolvedoi/resolve.aspx?doi=10.4018/978-1-5225-0432-0},
	doi = {10.4018/978-1-5225-0432-0},
	abstract = {This chapter surveys and discusses interdisciplinary approaches to primarily Artificial Intelligence (AI)based computational narrative or story generation systems by way of introducing cognitive science, and narratology and related literary theories. The first part of this chapter provides a general description (from the perspective of the research framework of the author) and the second part presents processes, theories, designs, and implementations of narrative generation by the author. In particular, the first part includes an overview of narratology and the relevant literary theories, computational and cognitive theories and techniques related to narratology and narrative generation, and narrative generation systems. The second part presents, in relative detail, components that constitute a systematic study for narrative generation by the author and an integrated narrative generation system of all of the previous attempts.},
	urldate = {2024-07-17},
	publisher = {IGI Global},
	editor = {Ogata, Takashi and Akimoto, Taisuke and Scheg, Abigail},
	year = {2016},
	doi = {10.4018/978-1-5225-0432-0},
}

@incollection{mani_computational_2014,
	title = {Computational {Narratology}},
	copyright = {De Gruyter expressly reserves the right to use all content for commercial text and data mining within the meaning of Section 44b of the German Copyright Act.},
	isbn = {978-3-11-031646-9},
	url = {https://www.degruyter.com/document/doi/10.1515/9783110316469.84/html},
	abstract = {Das Kapitel Computational Narratology erschien in Handbook of Narratology auf Seite 84.},
	language = {en},
	urldate = {2024-07-17},
	booktitle = {Handbook of {Narratology}},
	publisher = {De Gruyter},
	author = {Mani, Inderjeet},
	month = oct,
	year = {2014},
	doi = {10.1515/9783110316469.84},
	pages = {84--92},
	file = {Full Text PDF:B\:\\Zotero\\storage\\BBLX2BFX\\Mani - 2014 - Computational Narratology.pdf:application/pdf},
}

@book{noauthor_handbook_2014,
	title = {Handbook of {Narratology}},
	copyright = {De Gruyter expressly reserves the right to use all content for commercial text and data mining within the meaning of Section 44b of the German Copyright Act.},
	isbn = {978-3-11-031646-9},
	url = {https://www.degruyter.com/document/doi/10.1515/9783110316469/html},
	abstract = {This handbook provides a systematic overview of the present state of international research in narratology and is now available in a second, completely revised and expanded edition. Detailed individual studies by internationally renowned narratologists elucidate central terms of narratology, present a critical account of the major research positions and their historical development and indicate directions for future research.},
	language = {en},
	urldate = {2024-07-17},
	publisher = {De Gruyter},
	month = oct,
	year = {2014},
	doi = {10.1515/9783110316469},
	keywords = {Erzähltheorie, Narratologie},
	file = {Full Text PDF:B\:\\Zotero\\storage\\96TDW8K8\\2014 - Handbook of Narratology.pdf:application/pdf},
}

@misc{somers_scientific_2018-1,
	title = {The {Scientific} {Paper} {Is} {Obsolete}},
	url = {https://www.theatlantic.com/science/archive/2018/04/the-scientific-paper-is-obsolete/556676/},
	abstract = {Here's what's next.},
	language = {en},
	urldate = {2024-07-19},
	journal = {The Atlantic},
	author = {Somers, James},
	month = apr,
	year = {2018},
	note = {Section: Science},
	file = {Snapshot:B\:\\Zotero\\storage\\2VQLI3WP\\556676.html:text/html},
}

@misc{noauthor_paul_nodate-1,
	title = {Paul {Romer}},
	url = {https://paulromer.net/jupyter-mathematica-and-the-future-of-the-research-paper/},
	urldate = {2024-07-19},
	file = {Paul Romer:B\:\\Zotero\\storage\\XAHHB39M\\jupyter-mathematica-and-the-future-of-the-research-paper.html:text/html},
}

@misc{noauthor_rosetta_nodate,
	title = {The {Rosetta} {Stone} and the {Rebirth} of {Ancient} {Egypt}},
	url = {https://www.hup.harvard.edu/books/9780674063945},
	abstract = {The Rosetta Stone is one of the world’s great wonders, attracting awed pilgrims by the tens of thousands each year. This book tells the Stone’s story, from its discovery by Napoleon’s expedition to Egypt to its current—and controversial—status as the single most visited object on display in the British Museum.A pharaoh’s forgotten decree, cut in granite in three scripts—Egyptian hieroglyphs, Egyptian demotic, and ancient Greek—the Rosetta Stone promised to unlock the door to the language of ancient Egypt and its 3,000 years of civilization, if only it could be deciphered. Capturing the drama of the race to decode this key to the ancient past, John Ray traces the paths pursued by the British polymath Thomas Young and Jean-François Champollion, the “father of Egyptology” ultimately credited with deciphering Egyptian hieroglyphs. He shows how Champollion “broke the code” and explains more generally how such deciphering is done, as well as its critical role in the history of Egyptology. Concluding with a chapter on the political and cultural controversy surrounding the Stone, the book also includes an appendix with a full translation of the Stone’s text.Rich in anecdote and curious lore, The Rosetta Stone and the Rebirth of Ancient Egypt is a brilliant and frequently amusing guide to one of history’s great mysteries and marvels.},
	language = {en},
	urldate = {2024-07-21},
	journal = {Harvard University Press},
	file = {Snapshot:B\:\\Zotero\\storage\\4G9XB5AK\\9780674063945.html:text/html},
}

@book{parkinson_papyrus_1995,
	title = {Papyrus},
	isbn = {978-0-292-76563-4},
	abstract = {One of the most remarkable inventions of ancient Egypt was the making of paper from the papyrus plant. As early as 3000 B.C. sheets and rolls of papyrus provided an ideal surface for writing with a reed pen and pigments of carbon and red ocher. Egyptian scribes used papyrus for legal and administrative records, letters about business and personal life, as well as for literary texts and compendia of knowledge. Religious hymns and litanies were recorded, as were the great collections of formulae to secure life after death, the Books of the Dead. The authors examine the methods of making and conserving papyrus, the various scripts written on it, the writing practices of the scribes, and the different uses of papyrus under the Pharaohs and their successors, the Ptolemies and the Roman emperors. Egypt has preserved much Greek literature and administrative writings, and papyrus remained the writing material of the Mediterranean world until it was eclipsed in the ninth century A.D. by cloth paper from the Orient, ending a tradition that had lasted four thousand years.},
	language = {en},
	publisher = {University of Texas Press},
	author = {Parkinson, R. B. and Quirke, Stephen},
	year = {1995},
	note = {Google-Books-ID: 4xwz9wG80CAC},
	keywords = {History / Ancient / Egypt, History / Ancient / General, Social Science / General, Technology \& Engineering / Technical \& Manufacturing Industries \& Trades},
}

@book{needham_science_1985,
	title = {Science and {Civilisation} in {China}, {Part} 1, {Paper} and {Printing}},
	isbn = {978-0-521-08690-5},
	abstract = {Part one of the fifth volume of Joseph Needham's great enterprise is written by one of the project's collaborators. Professor Tsien Tsuen-Hsuin, working in regular consultation with Dr Needham, has written the most comprehensive account of every aspect of paper and printing in China to be published in the West. From a close study of the vast mass of source material, Professor Tsien brings order and illumination to an area of technology which has been of profound importance in the spread of civilisation. The main body of the book is a detailed study of the invention, technology and aesthetic development of printing in China. From the growth and ultimate refinements of early woodcut printing to the spread of printing from movable type and the development of book-binding, Professor Tsien carries the story forward to the beginning of the nineteenth century when 'more printed pages existed in Chinese than in all other languages put together'.},
	language = {en},
	publisher = {Cambridge University Press},
	author = {Needham, Joseph and Tsuen-Hsuin, Tsien},
	month = jul,
	year = {1985},
	keywords = {Science / History, History / Asia / China, Technology \& Engineering / History},
}

@article{yamauchi_review_1985,
	title = {Review of {The} {Birth} of the {Codex}},
	volume = {20},
	issn = {0275-3650},
	url = {https://www.jstor.org/stable/25541600},
	number = {2},
	urldate = {2024-07-21},
	journal = {The Journal of Library History (1974-1987)},
	author = {Yamauchi, Edwin},
	collaborator = {Roberts, Colin H. and Skeat, T. C.},
	year = {1985},
	note = {Publisher: University of Texas Press},
	pages = {202--204},
}

@book{de_hamel_christopher_scribes_nodate,
	title = {Scribes and {Illuminators}},
	url = {https://utorontopress.com/9780802077073/scribes-and-illuminators},
	abstract = {Illuminated manuscripts survive in great numbers from the Middle Ages.  They are often beautifully preserved, enabling us to appreciate the skilled design an...},
	language = {en},
	urldate = {2024-07-21},
	author = {De Hamel, Christopher},
	file = {Snapshot:B\:\\Zotero\\storage\\IR89PHDL\\scribes-and-illuminators.html:text/html},
}

@incollection{rouse_statim_1982,
	title = {Statim invenire: schools, preachers, and new attitudes to the page},
	shorttitle = {Statim invenire},
	booktitle = {Renaissance and {Renewal} in the {Twelfth} {Century}},
	author = {Rouse, Richard Hunter and Rouse, Mary A.},
	year = {1982},
	pages = {201--225},
	file = {RI OPAC:B\:\\Zotero\\storage\\UILEM7JY\\anzeige.html:text/html},
}

@misc{noauthor_johannes_nodate,
	title = {Johannes {Gutenberg} - {Deutsche} {Digitale} {Bibliothek}},
	url = {https://www.deutsche-digitale-bibliothek.de/person/gnd/118543768},
	urldate = {2024-07-21},
	file = {Johannes Gutenberg - Deutsche Digitale Bibliothek:B\:\\Zotero\\storage\\TWN73TVI\\118543768.html:text/html},
}

@book{janzin_buch_2007,
	title = {Das {Buch} vom {Buch}: 5000 {Jahre} {Buchgeschichte}},
	isbn = {978-3-89993-805-0},
	shorttitle = {Das {Buch} vom {Buch}},
	abstract = {Ein umfangreiches Kapitel präsentiert die Tendenzen an der Wende zum 21. Jahrhundert: Konzentrationsprozesse im Buchmarkt - Der Buchhandel geht online - Preisschlachten - die neue Schleuderei - Vom Boom des Hörbuches - Digitale Datenträger und elektronisches Publizieren - Bücher auf Abruf - Printing on Demand - Digitalisierungsprojekte contra Urheberrechte. "Das Buch vom Buch" ist die Kulturgeschichte des Buches. Beginnend bei den ersten Schriftzeichen verfolgen die Autoren den Wandel des Buches bis heute. Sie erläutern die Drucktechniken, beschreiben die Buchformen und Einbandkunst. Sie schreiben über Typo-graphie, Schriftstellerei, Bibliotheken, Raubdruck und Zensur. Mit der Neuauflage bringen die Autoren das Werk auf den neuesten Stand. Sie präsentieren die aktuellen Entwicklungen der letzten zehn Jahre und beschreiben den Schritt zum digita-len Buch. Mit grosszügigen Abbildungen veranschaulicht das umfassende Werk die vielgestaltigen Techniken und Themen der Buchherstellung und der Buchkultur.},
	language = {de},
	publisher = {Schlütersche},
	author = {Janzin, Marion and Güntner, Joachim},
	year = {2007},
	note = {Google-Books-ID: LG7uUZjXuxsC},
}

@book{kumar_digitizing_2017,
	title = {Digitizing the {Modern} {Library} and the {Transition} {From} {Print} to {Electronic}},
	isbn = {978-1-5225-2120-4},
	abstract = {The development of online digital libraries has enhanced the availability of printed materials. By implementing these systems, this ensures the access of material to universities, students, and bibliophiles.Digitizing the Modern Library and the Transition From Print to Electronic is a pivotal reference source for the latest techniques and initiatives needed to transition libraries into the digital age. Featuring extensive coverage on relevant areas such as electronic resource management, library management software, and semantic web, this publication is an ideal resource for faculty members, research scholars, students, information specialists, and librarians in universities and in academic, public, and special libraries.},
	language = {en},
	publisher = {IGI Global},
	author = {Kumar, Raj, Bhardwaj},
	month = aug,
	year = {2017},
	note = {Google-Books-ID: NBgxDwAAQBAJ},
	keywords = {Language Arts \& Disciplines / Library \& Information Science / Administration \& Management, Language Arts \& Disciplines / Library \& Information Science / Digital \& Online Resources, Language Arts \& Disciplines / Library \& Information Science / General},
}

@book{thompson_book_2021,
	title = {Book {Wars}: {The} {Digital} {Revolution} in {Publishing}},
	isbn = {978-1-5095-4678-7},
	shorttitle = {Book {Wars}},
	abstract = {This book tells the story of the turbulent decades when the book publishing industry collided with the great technological revolution of our time. From the surge of ebooks to the self-publishing explosion and the growing popularity of audiobooks, Book Wars provides a comprehensive and fine-grained account of technological disruption in one of our most important and successful creative industries. Like other sectors, publishing has been thrown into disarray by the digital revolution. The foundation on which this industry had been based for 500 years – the packaging and sale of words and images in the form of printed books – was called into question by a technological revolution that enabled symbolic content to be stored, manipulated and transmitted quickly and cheaply. Publishers and retailers found themselves facing a proliferation of new players who were offering new products and services and challenging some of their most deeply held principles and beliefs. The old industry was suddenly thrust into the limelight as bitter conflicts erupted between publishers and new entrants, including powerful new tech giants who saw the world in very different ways. The book wars had begun. While ebooks were at the heart of many of these conflicts, Thompson argues that the most fundamental consequences lie elsewhere. The print-on-paper book has proven to be a remarkably resilient cultural form, but the digital revolution has transformed the industry in other ways, spawning new players which now wield unprecedented power and giving rise to an array of new publishing forms. Most important of all, it has transformed the broader information and communication environment, creating new challenges and new opportunities for publishers as they seek to redefine their role in the digital age. This unrivalled account of the book publishing industry as it faces its greatest challenge since Gutenberg will be essential reading for anyone interested in books and their future.},
	language = {en},
	publisher = {Polity Press},
	author = {Thompson, John B.},
	month = apr,
	year = {2021},
	note = {Google-Books-ID: kWHUzQEACAAJ},
	keywords = {Social Science / Sociology / General, Social Science / Media Studies},
}

@book{carlson_linked_2020,
	address = {Chicago},
	series = {{ALCTS} monograph},
	title = {Linked data for the perplexed librarian},
	isbn = {978-0-8389-4746-3},
	abstract = {The goal of exposing cultural institutions\&\#39; records to the web is as important as ever-but for the non-technically minded, linked data can feel like a confusing morass of abstraction, jargon, and acronyms. Get conversant in linked data with this basic introduction from the Association of Library Collections and Technical Services.},
	language = {eng},
	publisher = {ALA Editions},
	collaborator = {Carlson, Scott and Lampert, Cory and Melvin, Darnelle and Washington, Anne},
	year = {2020},
	note = {OCLC: 1164606900},
	keywords = {Bibliothek, Libraries and the Internet, Information organization, Einführung, Métadonnées, Semantic Web, Recherche de l'information, Metadata, Metadaten, Information retrieval, Bibliothèques et Internet, Online library catalogs, BIBFRAME (Conceptual model), Gestion des données (systèmes d'information), Linked data, Linked Data, Machine-readable bibliographic data, Web sémantique, notion, BIBFRAME (Modèle conceptuel), Catalogues de bibliothèques en ligne, Données bibliographiques lisibles par machine, Données liées, information retrieval, Metadata / Standards, Metadata Standards, Métadonnées Normes, online catalogs, Organisation de l'information},
}

@book{fensel_spinning_2005,
	address = {Cambridge, Mass.},
	title = {Spinning the {Semantic} {Web}: bringing the {World} {Wide} {Web} to its full potential},
	isbn = {978-0-262-06232-9},
	shorttitle = {Spinning the {Semantic} {Web}},
	language = {eng},
	publisher = {MIT Press},
	author = {Fensel, Dieter},
	year = {2005},
	note = {OCLC: 254784227},
	keywords = {Internet, Web, World Wide Web, Semantic Web, notion, Aufsatzsammlung, Aufsatzsammlung Semantisches Netz World Wide Web, Semantic Web ; SWD-ID: 46883721},
}

@book{noauthor_ontology_2006,
	title = {Ontology {Learning} and {Population} from {Text}},
	copyright = {http://www.springer.com/tdm},
	isbn = {978-0-387-30632-2},
	url = {http://link.springer.com/10.1007/978-0-387-39252-3},
	language = {en},
	urldate = {2024-07-21},
	publisher = {Springer US},
	year = {2006},
	doi = {10.1007/978-0-387-39252-3},
	keywords = {classification, algorithms, computer, computer science, knowledge management, learning, ontology, semantic web, notion},
	file = {Volltext:B\:\\Zotero\\storage\\UL5IGEXC\\2006 - Ontology Learning and Population from Text.pdf:application/pdf},
}

@book{stuckenschmidt_information_2005,
	address = {Berlin, Heidelberg},
	title = {Information {Sharing} on the {Semantic} {Web}},
	copyright = {http://www.springer.com/tdm},
	isbn = {978-3-540-20594-4 978-3-540-26907-6},
	url = {http://link.springer.com/10.1007/b138282},
	language = {en},
	urldate = {2024-07-21},
	publisher = {Springer},
	author = {Stuckenschmidt, Heiner and Van Harmelen, Frank},
	year = {2005},
	doi = {10.1007/b138282},
	keywords = {XML, Web, World Wide Web, Information Retrieval, knowledge management, ontology, semantic web, data structure, E-Commerce, OntoBroker, Ontologies, organization, OWL, RDF, search engine marketing (SEM), notion},
	file = {Eingereichte Version:B\:\\Zotero\\storage\\5MTP96BI\\Stuckenschmidt und Van Harmelen - 2005 - Information Sharing on the Semantic Web.pdf:application/pdf},
}

@incollection{allemang_semantic_2011,
	address = {Boston},
	title = {Semantic {Web} for the {Working} {Ontologist} ({Second} {Edition})},
	isbn = {978-0-12-385965-5},
	url = {https://www.sciencedirect.com/science/article/pii/B9780123859655100214},
	urldate = {2024-07-21},
	publisher = {Morgan Kaufmann},
	editor = {Allemang, Dean and Hendler, Jim},
	month = jan,
	year = {2011},
	doi = {10.1016/B978-0-12-385965-5.10021-4},
	keywords = {notion},
	pages = {iv},
	file = {ScienceDirect Snapshot:B\:\\Zotero\\storage\\PVHLQXE6\\B9780123859655100214.html:text/html},
}

@misc{lu_introduction_nodate,
	title = {Introduction to the {Semantic} {Web} and {Semantic} {Web} {Services}},
	url = {https://www.routledge.com/Introduction-to-the-Semantic--Web-and-Semantic-Web-Services/Yu/p/book/9780367388973},
	abstract = {Even though the semantic Web is a relatively new and dynamic area of research, a whole suite of components, standards, and tools have already been developed around it. Using a concrete approach, Introduction to the Semantic Web and Semantic Web Services builds a firm foundation in the concept of the semantic Web, its principal technologies, its real-world applications, and its relevant coding examples.This introductory yet comprehensive book covers every facet of this exciting technology. After},
	language = {en},
	urldate = {2024-07-21},
	journal = {Routledge \& CRC Press},
	author = {Lu, Liyang},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\FZ6KYLLN\\9780367388973.html:text/html},
}

@book{fensel_knowledge_2020,
	address = {Cham},
	title = {Knowledge {Graphs}: {Methodology}, {Tools} and {Selected} {Use} {Cases}},
	copyright = {http://www.springer.com/tdm},
	isbn = {978-3-030-37438-9 978-3-030-37439-6},
	shorttitle = {Knowledge {Graphs}},
	url = {http://link.springer.com/10.1007/978-3-030-37439-6},
	language = {en},
	urldate = {2024-07-21},
	publisher = {Springer International Publishing},
	author = {Fensel, Dieter and Şimşek, Umutcan and Angele, Kevin and Huaman, Elwin and Kärle, Elias and Panasiuk, Oleksandra and Toma, Ioan and Umbrich, Jürgen and Wahler, Alexander},
	year = {2020},
	doi = {10.1007/978-3-030-37439-6},
	keywords = {Web Services, Ontologies, notion, Semantics, Knowledge Graphs, Knowledge Representation and Reasoning, OWL-Web Ontologies Language, RDF-Resource Description Framework, schema.org, Semantic Networks, Web Applications, Web Crawling},
}

@misc{rahaman_semantic_nodate,
	title = {Semantic {Web}-{Linked} {Data} and {Libraries}},
	copyright = {Access limited to members},
	url = {https://www.igi-global.com/gateway/chapter/www.igi-global.com/gateway/chapter/274750},
	abstract = {The present society is considered an information society. A society where the creation, distribution, use, integration, and manipulation of digital information have become the most significant activity in all aspects. Information is producing from every sector of any society, which has resulted in a...},
	language = {English},
	urldate = {2024-07-22},
	journal = {https://services.igi-global.com/resolvedoi/resolve.aspx?doi=10.4018/978-1-7998-8051-6.ch009},
	author = {Rahaman, Wasim},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\U2B6NQXA\\274750.html:text/html},
}

@misc{noauthor_latex_nodate-1,
	title = {{LaTeX} - {A} document preparation system},
	url = {https://www.latex-project.org/},
	urldate = {2024-07-22},
	keywords = {notion},
	file = {LaTeX - A document preparation system:B\:\\Zotero\\storage\\D5QNHE5N\\www.latex-project.org.html:text/html},
}

@misc{noauthor_short_2024,
	title = {A short history of the {Web}},
	url = {https://home.cern/science/computing/birth-web/short-history-web},
	language = {en},
	urldate = {2024-07-22},
	journal = {CERN},
	month = jul,
	year = {2024},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\7STHYVI3\\short-history-web.html:text/html},
}

@misc{noauthor_original_nodate-1,
	title = {The original proposal of the {WWW}, {HTMLized}},
	url = {https://www.w3.org/History/1989/proposal.html},
	urldate = {2024-07-22},
	keywords = {notion},
	file = {The original proposal of the WWW, HTMLized:B\:\\Zotero\\storage\\B35IZIMC\\proposal.html:text/html},
}

@misc{noauthor_bibliography_nodate,
	title = {Bibliography -- /{WWW}},
	url = {https://info.cern.ch/hypertext/WWW/Bibliography.html},
	urldate = {2024-07-22},
	keywords = {notion},
	file = {Bibliography -- /WWW:B\:\\Zotero\\storage\\SCFGAHP2\\Bibliography.html:text/html},
}

@book{noauthor_begriffe_2023,
	address = {Wolfenbüttel},
	series = {Zeitschrift für digitale {Geisteswissenschaften}. {Working} {Papers}. - {Wolfenbüttel} : {Forschungsverbund} {Marbach} {Weimar} {Wolfenbüttel}, [2021]- ; {ZDB}-{ID}: 3154630-4},
	title = {Begriffe der {Digital} {Humanities}: {Ein} diskursives {Glossar}},
	shorttitle = {Begriffe der {Digital} {Humanities}},
	url = {https://zfdg.de/wp_2023},
	number = {2},
	urldate = {2024-07-22},
	publisher = {Forschungsverbund Marbach Weimar Wolfenbüttel},
	year = {2023},
	note = {Pages: 1
Series Title: Zeitschrift für digitale Geisteswissenschaften. Working Papers. - Wolfenbüttel : Forschungsverbund Marbach Weimar Wolfenbüttel, [2021]- ; ZDB-ID: 3154630-4},
	keywords = {notion, Digital Humanities / Glossar / Terminologie / Elektronische Zeitschrift / Elektronische Publikation},
	file = {Library Catalog Entry Snapshot:B\:\\Zotero\\storage\\I789HVU9\\PPN.html:text/html},
}

@misc{sbfi_open_nodate,
	title = {Open {Science}},
	url = {https://www.sbfi.admin.ch/sbfi/de/home/hs/hochschulen/hochschulpolitische-themen/open-science.html},
	language = {de},
	urldate = {2024-07-22},
	author = {SBFI, Forschung und Innovation, Staatssekretariat für Bildung},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\PI6P979D\\open-science.html:text/html},
}

@misc{noauthor_external_nodate,
	title = {External {References} - {MyST} {Markdown}},
	url = {https://mystmd.org/guide/external-references},
	urldate = {2024-07-24},
	keywords = {notion},
	file = {External References - MyST Markdown:B\:\\Zotero\\storage\\AWENIPZM\\external-references.html:text/html},
}

@misc{noauthor_about_nodate,
	title = {About},
	url = {https://ror.org/about/},
	abstract = {The Research Organization Registry (ROR) is a global, community-led registry of open persistent identifiers for research organizations. ROR aims to provide a persistent identifier (PID) for every research organization in the world, just as ORCID provides persistent identifiers for researchers and DOIs provide persistent identifiers for research outputs. All ROR data is open on the web and public domain via CC0, and the ROR dataset and API are free to use.},
	language = {en},
	urldate = {2024-07-24},
	journal = {Research Organization Registry (ROR)},
	keywords = {notion},
}

@misc{noauthor_research_nodate,
	title = {Research {Organization} {Registry} ({ROR})},
	url = {https://ror.org/},
	abstract = {The Research Organization Registry (ROR) is a global, community-led registry of open persistent identifiers for research organizations. ROR aims to provide a persistent identifier (PID) for every research organization in the world, just as ORCID provides persistent identifiers for researchers and DOIs provide persistent identifiers for research outputs. All ROR data is open on the web and public domain via CC0, and the ROR dataset and API are free to use.},
	language = {en},
	urldate = {2024-07-24},
	journal = {Research Organization Registry (ROR)},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\2Q8PXJ36\\ror.org.html:text/html},
}

@misc{noauthor_rrid_nodate,
	title = {{RRID} {\textbar} {Welcome}...},
	url = {https://rrid.site/},
	urldate = {2024-07-24},
	keywords = {notion},
	file = {RRID | Welcome...:B\:\\Zotero\\storage\\7IA3DTH9\\rrid.site.html:text/html},
}

@misc{noauthor_research_nodate-1,
	title = {Research {Activity} {Identifier}},
	url = {https://raid.org},
	language = {en},
	urldate = {2024-07-24},
	journal = {Research Activity Identifier},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\WB5BB2ZN\\raid.org.html:text/html},
}

@article{toro_dmps_2024-1,
	title = {{DMPs} as {Management} {Tool} for {Intellectual} {Assets} by {SMART}-metrics},
	volume = {18},
	copyright = {Copyright (c) 2024 Federico Grasso Toro},
	issn = {1746-8256},
	url = {https://ijdc.net/index.php/ijdc/article/view/919},
	doi = {10.2218/ijdc.v18i1.919},
	abstract = {Data Management Plans (DMPs) are vital components of effective research data management (RDM). They serve not only as organisational tools but also as a structured framework dictating the collection, processing, sharing/publishing, and management of data throughout the research data life cycle. This can include existing data curation standards, the establishment of data handling protocols, and the creation, when necessary, of community curation policies. Therefore, DMPs present a unique opportunity to harmonise project management efforts for optimising the formulation and execution of project objectives.


To harness the full potential of DMPs as project management tools, the SMART approach (i.e., Specific, Measurable, Achievable, Relevant, and Time-bound) emerges as a compelling methodology. During the initial stage of the project proposal, drafted SMART metrics can offer a systematic approach to map work packages (WPs) and deliverables to the overarching project objectives. Then, the Principal Investigators (PIs) can ensure the consortia that all the project potential intellectual assets (i.e., expected research results) were considered properly, as well as their necessary timelines, resources, and execution. It becomes imperative for data stewards (DSs) and governance policymakers to educate and provide guidelines to researchers on the advantages of developing well-curated DMPs that align results with SMART metrics. This alignment ensures that every intellectual asset intended as a research result (e.g., intellectual properties, publications, datasets, and software) within the project is subject to rigorous drafted planning, execution, and accountability. 
Consequently, the risk of unforeseen setbacks and/or deviations from the original objectives is minimised, increasing the traceability and transparency of the research data life cycle. In addition, the integration of Technology Readiness Levels (TRLs) into this proposed enhanced DMP provides a systematic method to evaluate the maturity and readiness of technologies across scientific disciplines. Regular TRL assessments will allow PIs: (1) to monitor the WP progress, (2) to adapt research strategies if required, and (3) to ensure the projects remain in line with the drafted SMART metrics in the enhanced DMP before the project started. The TRLs can also help PIs maintain their focus on project milestones and specific tasks aligned with the original objectives, contributing to the overall success of their endeavours, while improving the transparency for the reporting and divulgation of the research results.


The paper presents the overall framework for enhancing DMPs as project management tools for any intellectual assets using SMART metrics and TRLs, as well as introducing suggested support services for data stewardship teams to assist PIs when implementing this novel framework effectively.},
	language = {en},
	number = {1},
	urldate = {2024-07-24},
	journal = {International Journal of Digital Curation},
	author = {Toro, Federico Grasso},
	month = jun,
	year = {2024},
	note = {Number: 1},
	keywords = {notion, curation, DCC, digital curation, digital preservation, IJDC, International Journal of Digital Curation, preservation},
	file = {Full Text PDF:B\:\\Zotero\\storage\\EWUL9RKU\\Toro - 2024 - DMPs as Management Tool for Intellectual Assets by.pdf:application/pdf},
}

@misc{noauthor_data_nodate,
	title = {Data management plans - {Research} - {University} of {St} {Andrews}},
	url = {https://www.st-andrews.ac.uk/research/support/open-research/research-data-management/requirements-for-postgraduate-students/data-management-plans/},
	urldate = {2024-07-24},
	keywords = {notion},
	file = {Data management plans - Research - University of St Andrews:B\:\\Zotero\\storage\\HN39XRYG\\data-management-plans.html:text/html},
}

@article{joyeux-prunel_digital_2024-3,
	title = {Digital humanities in the era of digital reproducibility: towards a fairest and post-computational framework},
	volume = {6},
	issn = {2524-7840},
	shorttitle = {Digital humanities in the era of digital reproducibility},
	url = {https://doi.org/10.1007/s42803-023-00079-6},
	doi = {10.1007/s42803-023-00079-6},
	abstract = {Reproducibility has become a requirement in the hard sciences, and its adoption is gradually extending to the digital humanities. The FAIR criteria and the publication of data papers are both indicative of this trend. However, the question that arises is whether the strict prerequisites of digital reproducibility serve only to exclude digital humanities from broader humanities scholarship. Instead of adopting a binary approach, an alternative method acknowledges the unique features of the objects, inquiries, and techniques of the humanities, including digital humanities, as well as the social and historical contexts in which the concept of reproducibility has developed in the human sciences. In the first part of this paper, I propose to examine the historical and disciplinary context in which the concept of reproducibility has developed within the human sciences, and the disciplinary struggles involved in this process, especially for art history and literature studies. In the second part, I will explore the question of reproducibility through two art history research projects that utilize various computational methods. I argue that issues of corpus, method, and interpretation cannot be separated, rendering a procedural definition of reproducibility impractical. Consequently, I propose the adoption of ‘post-computational reproducibility’, which is based on FAIREST criteria as far as digital corpora are concerned (FAIR + Ethics and Expertise, Source mention + Time-Stamp), but extended to include further sources that confirm computational results with other non-computational methodologies.},
	language = {en},
	number = {1},
	urldate = {2024-07-24},
	journal = {International Journal of Digital Humanities},
	author = {Joyeux-Prunel, Béatrice},
	month = apr,
	year = {2024},
	keywords = {Digital humanities, Data, Digital art history, Distant reading, FAIR principles, Reproducibility},
	pages = {23--43},
	file = {Full Text PDF:B\:\\Zotero\\storage\\MFZTTQNF\\Joyeux-Prunel - 2024 - Digital humanities in the era of digital reproduci.pdf:application/pdf},
}

@misc{noauthor_ssh_nodate,
	title = {{SSH} {Open} {Marketplace} {\textbar} {SSHOPENCLOUD}},
	url = {https://sshopencloud.eu/ssh-open-marketplace},
	urldate = {2024-07-24},
	keywords = {notion},
	file = {SSH Open Marketplace | SSHOPENCLOUD:B\:\\Zotero\\storage\\ZS935UN2\\ssh-open-marketplace.html:text/html},
}

@misc{taka_publishing_2018,
	title = {Publishing reproducible logbooks explainer comic strip},
	copyright = {Creative Commons Attribution Share Alike 4.0 International, Open Access},
	url = {https://zenodo.org/record/4421040},
	abstract = {This comic strip explains at a high level how to publish reproducible{\textless}br{\textgreater} notebooks using tools and services such as Jupyter and Binder. Files:{\textless}br{\textgreater} - reproducible\_logbook.png: main picture{\textless}br{\textgreater} - reproducible\_logbook\_scenario.png: zoom on the scenario part of the picture{\textless}br{\textgreater} - reproducible\_logbook.kra: original Krita source file{\textless}br{\textgreater} - reproducible\_logbook\_texts.svg: svg export (just the texts){\textless}br{\textgreater} - reproducible\_logbook\_wo\_text.png: png export without the texts (e.g. for translations)},
	language = {en},
	urldate = {2024-07-24},
	author = {Taka, Juliette and Thiéry, Nicolas M.},
	month = oct,
	year = {2018},
	doi = {10.5281/ZENODO.4421040},
	note = {Publisher: Zenodo},
	keywords = {notion, Binder, Jupyter, logbook, reproducibility},
}

@article{hardwicke_calibrating_2020,
	title = {Calibrating the {Scientific} {Ecosystem} {Through} {Meta}-{Research}},
	volume = {7},
	issn = {2326-8298, 2326-831X},
	url = {https://www.annualreviews.org/doi/10.1146/annurev-statistics-031219-041104},
	doi = {10.1146/annurev-statistics-031219-041104},
	abstract = {While some scientists study insects, molecules, brains, or clouds, other scientists study science itself. Meta-research, or research-on-research, is a burgeoning discipline that investigates efficiency, quality, and bias in the scientific ecosystem, topics that have become especially relevant amid widespread concerns about the credibility of the scientific literature. Meta-research may help calibrate the scientific ecosystem toward higher standards by providing empirical evidence that informs the iterative generation and refinement of reform initiatives. We introduce a translational framework that involves ( a) identifying problems, ( b) investigating problems, ( c) developing solutions, and ( d) evaluating solutions. In each of these areas, we review key meta-research endeavors and discuss several examples of prior and ongoing work. The scientific ecosystem is perpetually evolving; the discipline of meta-research presents an opportunity to use empirical evidence to guide its development and maximize its potential.},
	language = {en},
	number = {1},
	urldate = {2024-07-24},
	journal = {Annual Review of Statistics and Its Application},
	author = {Hardwicke, Tom E. and Serghiou, Stylianos and Janiaud, Perrine and Danchev, Valentin and Crüwell, Sophia and Goodman, Steven N. and Ioannidis, John P.A.},
	month = mar,
	year = {2020},
	keywords = {notion},
	pages = {11--37},
	file = {Volltext:B\:\\Zotero\\storage\\DMP85899\\Hardwicke et al. - 2020 - Calibrating the Scientific Ecosystem Through Meta-.pdf:application/pdf},
}

@article{rule_ten_2019-1,
	title = {Ten simple rules for writing and sharing computational analyses in {Jupyter} {Notebooks}},
	volume = {15},
	issn = {1553-7358},
	url = {https://dx.plos.org/10.1371/journal.pcbi.1007007},
	doi = {10.1371/journal.pcbi.1007007},
	language = {en},
	number = {7},
	urldate = {2024-07-24},
	journal = {PLOS Computational Biology},
	author = {Rule, Adam and Birmingham, Amanda and Zuniga, Cristal and Altintas, Ilkay and Huang, Shih-Cheng and Knight, Rob and Moshiri, Niema and Nguyen, Mai H. and Rosenthal, Sara Brin and Pérez, Fernando and Rose, Peter W.},
	editor = {Lewitter, Fran},
	month = jul,
	year = {2019},
	keywords = {notion},
	pages = {e1007007},
	file = {Volltext:B\:\\Zotero\\storage\\CV9AJRW8\\Rule et al. - 2019 - Ten simple rules for writing and sharing computati.pdf:application/pdf},
}

@article{perez-riverol_ten_2016,
	title = {Ten {Simple} {Rules} for {Taking} {Advantage} of {Git} and {GitHub}},
	volume = {12},
	issn = {1553-7358},
	url = {https://dx.plos.org/10.1371/journal.pcbi.1004947},
	doi = {10.1371/journal.pcbi.1004947},
	language = {en},
	number = {7},
	urldate = {2024-07-24},
	journal = {PLOS Computational Biology},
	author = {Perez-Riverol, Yasset and Gatto, Laurent and Wang, Rui and Sachsenberg, Timo and Uszkoreit, Julian and Leprevost, Felipe Da Veiga and Fufezan, Christian and Ternent, Tobias and Eglen, Stephen J. and Katz, Daniel S. and Pollard, Tom J. and Konovalov, Alexander and Flight, Robert M. and Blin, Kai and Vizcaíno, Juan Antonio},
	editor = {Markel, Scott},
	month = jul,
	year = {2016},
	keywords = {notion},
	pages = {e1004947},
	file = {Volltext:B\:\\Zotero\\storage\\HK9XYDSM\\Perez-Riverol et al. - 2016 - Ten Simple Rules for Taking Advantage of Git and G.pdf:application/pdf},
}

@misc{cockett_future_2022,
	title = {Future of {Research} {Communication} \& {Collaboration}},
	url = {https://zenodo.org/records/6476040},
	abstract = {Scientific communication today is designed around print documents and paywalled access to content. Over the last decade, the open-science movement has accelerated the use of pre-print services and data archives that are vastly improving the accessibility of scientific content. However, these systems are not designed for communicating modern scientific outputs, which encompasses much more than a “paper-centric model of the scholarly literature”.


In this presentation, we will give a background on challenges with today’s tools for research communication \& collaboration, and present a vision for the future that follows the FORCE11 recommendations (Bourne et al., 2012). Specifically: (1) rethink the unit and form of scholarly publication; (2) develop tools and technologies to better support the scholarly lifecycle; and (3) add data, software, and workflows as first-class research objects.


We will discuss these recommendations in the context of (a) the ExecutableBooks community and new markup languages for scientific communication; (b) a collaborative writing tool called Curvenote that integrates with Jupyter Notebooks, and (c) new publishing tools that support networked scientific communication throughout the scholarly lifecycle.


Video of Presentation is on YouTube:
https://youtu.be/uSbjpiUsdT0},
	urldate = {2024-07-24},
	author = {Cockett, Rowan},
	month = apr,
	year = {2022},
	doi = {10.5281/zenodo.6476040},
	keywords = {notion, Scientific Writing},
	file = {Full Text PDF:B\:\\Zotero\\storage\\YIENGN3X\\Cockett - 2022 - Future of Research Communication & Collaboration.pdf:application/pdf},
}

@misc{noauthor_white_2024,
	title = {White {House} {Office} of {Science} \& {Technology} {Policy} {Announces} {Year} of {Open} {Science} {Recognition} {Challenge} {Winners} {\textbar} {OSTP}},
	url = {https://www.whitehouse.gov/ostp/news-updates/2024/03/21/white-house-office-of-science-technology-policy-announces-year-of-open-science-recognition-challenge-winners/},
	abstract = {Today, the White House Office of Science and Technology Policy (OSTP) is announcing the winners of the OSTP Year of Open Science Recognition Challenge. This challenge engaged researchers, community scientists, educators, innovators, and the broader public to highlight efforts to expand access to research for the benefit of science and society. The effort also builds…},
	language = {en},
	urldate = {2024-07-30},
	journal = {The White House},
	month = mar,
	year = {2024},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\MH9NTG7C\\white-house-office-of-science-technology-policy-announces-year-of-open-science-recognition-chal.html:text/html},
}

@misc{noauthor_glam_nodate,
	title = {{GLAM} {Jupyter} {Notebooks} - {BVMC}.{Labs}},
	url = {https://data.cervantesvirtual.com/glam-jupyter-notebooks},
	abstract = {Colección de Jupyter Notebooks para promocionar el acceso computacional a colecciones digitales publicadas por instituciones GLAM. Este proyecto se ha inspirado en la Comunidad Internacional GLAM Labs, el libro Open a GLAM Lab, Collections as Data y el proyecto GLAM Workbench.},
	language = {en},
	urldate = {2024-07-31},
	journal = {Laboratorio de la Biblioteca Virtual Miguel de Cervantes},
	keywords = {notion},
	file = {Snapshot:B\:\\Zotero\\storage\\EL9NLW26\\glam-jupyter-notebooks.html:text/html},
}

@article{candela_approach_2023,
	title = {An approach to assess the quality of {Jupyter} projects published by {GLAM} institutions},
	volume = {74},
	issn = {2330-1643},
	url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/asi.24835},
	doi = {10.1002/asi.24835},
	abstract = {GLAM organizations have been digitizing their collections and making them available for the public for several decades. Recent methods for publishing digital collections such as “GLAM Labs” and “Collections as Data” provide guidelines for the application of computational methods to reuse the contents of cultural heritage institutions in innovative and creative ways. Jupyter Notebooks have become a powerful tool to foster use of these collections by digital humanities researchers. Based on previous approaches for quality assessment, which have been adapted for cultural heritage collections, this paper proposes a methodology for assessing the quality of projects based on Jupyter Notebooks published by relevant GLAM institutions. A list of projects based on Jupyter Notebooks using cultural heritage data has been evaluated. Common features and best practices have been identified. A detailed analysis, that can be useful for organizations interested in creating their own Jupyter Notebooks projects, has been provided. Open issues requiring further work and additional avenues for exploration are outlined.},
	language = {en},
	number = {13},
	urldate = {2024-07-31},
	journal = {Journal of the Association for Information Science and Technology},
	author = {Candela, Gustavo and Chambers, Sally and Sherratt, Tim},
	year = {2023},
	note = {\_eprint: https://onlinelibrary.wiley.com/doi/pdf/10.1002/asi.24835},
	keywords = {notion},
	pages = {1550--1564},
	file = {Full Text PDF:B\:\\Zotero\\storage\\N7JR8VMY\\Candela et al. - 2023 - An approach to assess the quality of Jupyter proje.pdf:application/pdf;Snapshot:B\:\\Zotero\\storage\\UYSHJUZ3\\asi.html:text/html},
}