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{{Short description|Systems and services that enable open science}}
[[File:Open science pillars.png|thumb|upright=1.35|Open Science infrastructure is one of the four pillars of Open Science in the UNESCO Recommendation on Open Science (2021)]]▼
{{use dmy dates|cs1-dates=yy|date=February 2024}}
▲[[File:Open science pillars.png|thumb|upright=1.35|Open Science infrastructure is one of the four pillars of Open Science in the UNESCO Recommendation on Open Science (2021).]]
'''Open Science Infrastructure''' (or ''open scholarly infrastructure'') is
Open science infrastructures are a form of scientific infrastructure (also called ''[[cyberinfrastructure]]'', ''[[e-Science]]'' or ''e-infrastructure'') that support the production of open knowledge. Beyond the management of common resources, they are frequently structured as community-led initiatives with a set collective norms and governance regulations, which makes them also a form of [[knowledge commons]]. The definition of open science infrastructures usually exclude privately
Computing infrastructures and online services have played a key role in the production and diffusion of scientific knowledge since the 1960s. While these early scientific infrastructure were initially envisioned as community initiatives, they could not be openly used due to the lack of interconnectivity and the cost of network connection. The creation of the [[World Wide Web]] made it possible to share data and publications on a large scale. The sustainability of online research projects and services became a critical policy issue and entailed the development of major infrastructure in the 2000s.
The concept of open science infrastructure emerged after 2015 following a scientific policy debate over the expansion of commercial and privately
== Definitions and terminology ==
''Open science infrastructure'' is a form of knowledge infrastructure that makes it possible to create, publish and maintain open scientific outputs such as
===Infrastructure===
The use of the term "infrastructure" is an explicit reference to the physical infrastructures and networks such as power grids, road networks or telecommunications that made it possible to run complex economic and social system after the industrial revolution: "The term infrastructure has been used since the 1920s to refer collectively to the roads, power grids, telephone systems, bridges, rail lines, and similar public works that are required for an industrial economy to function (
Open science infrastructure have specific properties that contrast them with other forms of open science projects or initiatives:
*Open science infrastructures are not simply a technical product but embed a set of tools, institutions and social norms
*Open science infrastructures are durable and resilient. They are expected to run on a long
*Open science infrastructures can be shared and used by different actors and communities. It must be sufficiently consistent to remain coordinated and yet it have to welcome a diverse array of local uses: "an infrastructure occurs when the tension between local and global is resolved".
===Openness and the commons===
Open science infrastructures are open, which differentiate them with other scientific and knowledge infrastructure and, more specifically, with subscription-based commercial infrastructures. Openness is both a core value and a directing principle that affect the aims, the governance and the management of the infrastructure. Open science infrastructure face similar issues met by other open institutions such as [[open data]] repositories or large scale collaborative project such as Wikipedia: "When we study contemporary knowledge infrastructures we find values of openness often embedded there, but translating the values of openness into the design of infrastructures and the practices of infrastructuring is a complex and contingent process".
The conceptual definition of open science infrastructures has been largely influenced by the analysis of [[Elinor Ostrom]] on the [[commons]] and more specifically on the [[knowledge commons]]. In accordance with Ostrom, [[Cameron Neylon]] understates that open infrastructures are not only characterized by the management of a pool of common resources but also by the elaboration of common governance and norms.
Open science infrastructures are not only a more specific subset of scientific infrastructures and cyberinfrastructures but may also include actors that would not fall into this definition. "Open access publication platforms" such as [[Scielo]], [[OpenEdition.org|OpenEdition]] or the [[Open Library of Humanities]] are considered an integral part of open science infrastructures in the UNESCO definition
Open science infrastructures may also incorporate additional values and ethical principles. Samuel Moore has theorized a form of ''care-full scholarly commons'' that does not exist yet but would incorporate latent forms of open science infrastructure and communities: "In addition to sharing resources with other projects, commoning also requires commoners to adopt an outwardly-focused, generous attitude to other commons projects, redirecting their labour away from proprietary."
===Principles for open science infrastructures===
In 2015 ''Principles for Open Scholarly Infrastructure'' have laid out an influential prescriptive definition of open science infrastructures. Subsequent definitions and terminologies of open science
The ''Principles'' attempt to hybridize the framework of infrastructure studies with the analysis of the [[commons]] initiated by [[Elinor Ostrom]]. The principles develop a series of recommendations in three critical areas to the success of open infrastructures:
* '''Governance''': the governance of the
* '''Sutainability''': the core activities of organization should be covered by recurring funds. Short-term subventions should be limited to short-term projects.
* '''Insurance''': the technical infrastructure and the output of the organization are open. This ensure that the infrastructure can be recreated if necessary (in the jargon of open source, it becomes "forkable").
The text ends by mentioning several potential consequences of the principles. The authors advocate for a responsible centralization, that embodies a different than the large web commercial platforms like Google and Facebook while still maintaining the important benefit of centralized infrastructures: "we will be able to build accountable and trusted organisations that manage this centralization responsibly".
A more critical reception has focused on the underlying political philosophy of the ''Principles''.
{{
== History ==
=== Early developments (1950–1990) ===
[[File:Sputnik asm.jpg|thumbnail|The Sputnik launch has triggered one of the first major debate on scientific infrastructure.]]
Scientific projects have been among the earliest use case for digital infrastructure. The theorization of scientific knowledge infrastructure even predates the development of computing technologies. The knowledge network envisioned by [[Paul Otlet]] or [[Vannevar Bush]] already incorporated numerous features of online scientific infrastructures.
After the Second World War, the United States faced a "periodical crisis": existing journals could not keep up with the rapidly increasing scientific output.
Influent members of the [[National Science Foundation]] like [[Joshua Ledeberg]] advocated for the creation of a "centralized information system", [[SCITEL]] that would at first coexist with printed journals and gradually replace them altogether on account of its efficiency.
Although it anticipates key features of online scientific platforms, the SCITEL plan was technically irrealistic at the time. The first working prototype on an online retrieval system developed in 1963 by Doug Engelhart and Charles Bourne at the Stanford Research Institute was heavily constrained by memory issues: no more than 10,000 words of a few documents could be indexed.
[[File:Principle medlars.png|thumb|The indexation process of citations in MEDLARS, an early scientific infrastructure for publications in medicine]]
Instead of a general purpose publishing platform, the early scientific computing infrastructures focused on specific research areas, such as [[MEDLINE]] for medicine, NASA/RECON for space engineering or OCLC Worldcat for library search: "most of the earliest online retrieval system provided access to a bibliographic database and the rest used a file containing another sort of information—encyclopedia articles, inventory data, or chemical compounds."
{{
The development of digital infrastructure for scientific publication was largely undertaken by private companies. In 1963, Eugene Garfield created the [[Institute for Scientific Information]] that aimed to transform the projects initially envisioned with Lederberg into a profitable business. The [[Science Citation Index]] relied on a computational processing of citation data. It had a massive and lasting influence on the structuration of global scientific publication in the last decades of the 20th century, as its most important metrics, the Journal Impact Factor, "ultimately came to provide the metric tool needed to structure a competitive market among journal.
Until the advent of the web, the landscape of scientific infrastructures remained fragmented.
=== The Web Revolution (1990–1995) ===
The [[World Wide Web]] was originally framed as an open scientific infrastructure. The project was inspired by [[ENQUIRE]], an information management software commissioned to [[Tim Berners-Lee]] by the [[CERN]] for the specific needs of high energy physics. The structure of ENQUIRE was closer to an internal web of data: it connected "nodes" that "could refer to a person, a software module, etc. and that could be interlined with various relations such as made, include, describes and so forth".
Sharing of data and data documentation was a major focus in the initial communication of the World Wide Web when the project was first unveiled in August 1991 : "The WWW project was started to allow high energy physicists to share data, news, and documentation. We are very interested in spreading the web to other areas, and having gateway servers for other data".
The web rapidly superseded pre-existing online infrastructure, even when they included more advanced computing features. From 1991 to 1994, users of the [[Worm Community System]], a major biology database on worms, switched to the Web and Gopher. While the Web did not include many advanced functions for data retrieval and collaboration, it was easily accessible. Conversely, the ''Worm Community System'' could only be browsed on specific terminals shared across scientific institutions: "To take on board the custom-designed, powerful WCS (with its convenient interface) is to suffer inconvenience at the intersection of work habits, computer use, and lab resources (…) The World-Wide Web, on the other hand, can be accessed from a broad variety of terminals and connections, and Internet computer support is readily available at most academic institutions and through relatively inexpensive commercial services.
The Web and similar protocols developed at the time have had a similar impact on scientific publications. Early forms of open access publishing were not developed by large scale institutional infrastructures but through small initiatives. Universal access, regardless of the operating system, made it possible to maintain and share community-driven electronic journals year before online commercial scientific publishings became viable:
{{
The first [[open-access repository|open-access repositories]] were individual or community initiatives as well. In August 1991, [[Paul Ginsparg]] created the first inception of the [[arXiv]] project at the [[Los Alamos National Laboratory]] in answer to recurring storage issue of academic mailboxes on account of the increasing sharing of scientific articles
===Building scientific infrastructures for the web (1995-2015)===
{{Main|Cyberinfrastructure|e-Science}}
The development of the World-Wide Web had rendered numerous pre-existing scientific infrastructure obsolete. It also lifted numerous restrictions and obstacles to online contribution and network management that made it possible to attempt more ambitious project. By the end of the 1990s, the creation of public scientific computing infrastructure became a major policy issue.{{sfn|Borgman|2007|p=21}} The first wave of web-based scientific projects in the 1990s and the early 2000s revealed critical issues of sustainability. As funding was allocated on a specific time period, critical databases, online tools or publishing platforms could hardly be maintained;{{sfn|Dacos|2013}} and project managers were faced with a ''valley of death'' "between grant funding and ongoing operational funding".{{sfn|Skinner|2019|p=6}}
Several competing terms appeared to fill this need. In the United States, the ''cyber-infrastructure'' was used in a scientific context by a US National Science Foundation (NSF) blue-ribbon committee in 2003: "The newer term cyberinfrastructure refers to infrastructure based upon distributed computer, information and communication technology. If infrastructure is required for an industrial economy, then we could say that cyberinfrastructure is required for a knowledge economy."
Thanks to "sizable investments",
By 2010, infrastructure are "no longer in infancy" and yet "they are also not yet fully mature".
[[File:Providers of digital tools for the scientific workflow.png|thumb|Leading commercial ecosystems for scientific research]]
Leading commercial publishers were initially distanced by the unexpected rise of the Web for academic publication: the executive board of [[Elsevier]] "had failed to grasp the significance of electronic publishing altogether, and therefore the deadly danger that it posed—the danger, namely, that scientists would be able to manage without the journal".
{{
=== Toward open science infrastructures (2015-…) ===
The consolidation and expansion of commercial scientific infrastructure had entailed renewed calls to secure "community-controlled infrastructure".
In contrast with the consolidation of privately
More precise concepts were needed to embed ethical principles of openness, community-service and autonomous governance in the building of infrastructure and ensure the transformation of small localized scholarly networks into large, "community-wide" structures.
{{
Since 2015 these principles have become the most influential definition of Open Science Infrastructures and been endorsed by leading infrastructures such as Crossref,
By 2021, public services and infrastructures for research have largely endorsed open science as an integral part of their activity and identity: "open science is the dominant discourse to which new online services for research refer."
In agreement with the original intent of the ''Principles'', open science infrastructure are "seen as an antidote to the increased market concentration observed in the scholarly communication space."
The development of open scientific infrastructure has become a debated topic regarding the future of online scientific research. In January 2021, a collective of researchers called for a ''Plan I'' or ''Plan Infrastructure'' in reaction to perceived shortcomings of the international initiative for open science of the cOAlition S, the ''Plan S''.
== Organization of open infrastructures ==
Most of the landscape reports on Open Infrastructure have been undertaken in Europe and, to a lesser extent, in Latin America. For Europe, the main sources include the SPARC report from 2020,
These reports underline that important open science infrastructures may be already existing and yet remain invisible to funders and scientific policies: "alternative practices and projects exist inside and outside Europe, but these projects are almost invisible to the eyes of the public authorities".
=== Type and roles ===
Open Access repositories are the most frequent form of Open Science Infrastructure<ref>{{harvnb|Operas Landscape Study|2017|p=15}}</ref> with 5,791 repositories in existence in December 2021 according to OpenDOAR
Yet, there is a significant diversification of the roles and the activities of open science infrastructure, at least among the largest infrastructures. In the survey of European infrastructure conducted by SPARC Europe, 95% of the respondents mention that they provide services in at least three different stages of research production out of six (Creation, Evaluation, Publishing, Hosting, Discovering and Archiving).
Specialization does happen at a higher level. A network analysis identifies "two main clusters of activities":
* Publishing-focused infrastructures which are associated with the "publishing and hosting traditional text formats".
* Creation-focused infrastructures which deal preferably with the "processing and storing research outputs, particularly data". Theses actors provide specific services in the field of "data gathering (47 out of 71), and data analysis (40)".
=== Standards and technologies ===
Standardization is a major function of open science infrastructure as they aim to insure that the content they share and support is distributed consistently as well as ease reuse.
Maintaining open standards is one of the main challenge identified by leading European open infrastructures, as it implies choosing among competing standards in some case, as well as ensuring that the standards are correctly updated and accessibile through APIs or other endpoints.
Open science infrastructures preferably integrate standards from other open science infrastructures. Among European infrastructures: "The most commonly cited systems – and thus essential infrastructure for many – are [[ORCID]], [[Crossref]], [[DOAJ]], [[BASE (search engine)|BASE]], [[OpenAIRE]], [[Altmetric]], and [[Datacite]], most of which are not-for-profit".<ref>{{harvnb|Ficarra et al.|2020|p=50}}</ref> [[Google Scholar]] is the first mentioned commercial service, while Scopus, the leading proprietary academic search engine developed by [[Elsevier]], is one of least quoted leading service.
Infrastructures are frequently dependent on choices made by external stakeholders, especially scientific publishers: they "do not themselves decide on
the openness of content since they are dependent on the policies of content providers".<ref>{{harvnb|Ficarra et al.|2020|p=27}}</ref> This affects not only the content but also the "user data policies [that] are set by publishers which limits what can be made available".
Open Science Infrastructure have strong ties with the [[open source]] movement. 82% of the European infrastructures surveyed by SPARC claim to have partially built open source software and 53% have their entire technological infrastructure in open source.
=== Governance ===
Governance has been self-identified as a potential weakness by the European infrastructure surveyed by SPARC.<ref>{{harvnb|Ficarra et al.|2020|p=22}}</ref> Less than half of the respondents considering that they are at a "mature" stage in this regard and a "good governance" is quoted as the main challenge.
The tension between centralization and diversity largely characterizes Open Science Infrastructure. While historically defined as a "centralized [Open Access] project", Redalyc aims to become a "community-based sustainable infrastructure in Latin America" (Berrecil). The leading European open infrastructures have reported "challenges around ensuring sufficient (and sufficiently diverse) representation" as well as the involvement from some professional communities like researchers and librarians.
=== Audience ===
Open Science Infrastructure "target and serve a wide range of stakeholders".<ref>{{harvnb|Ficarra et al.|2020|p=18}}</ref> Researchers remain the primary target, but libraries, teachers and learners are among the expected audience of more than half of the infrastructure surveyed by Sparc Europe.
A majority of
[[File:Disciplines in open science infrastructure.png|thumb|Distribution of disciplines among the infrastructures surveyed by the SPARC report ''Scoping the Open Science Infrastructure Landscape in Europe'']]
Open Science Infrastructures benefit to diverse disciplines and scientific communities. In 2020, 72% of the
=== Economics ===
Many Open Science Infrastructure run "at a relatively low cost" as small infrastructures are an important part of the open science ecosystem.
Overall, European infrastructures were financially sustainable in 2020<ref>{{harvnb|Ficarra et al.|2020|p=51}}</ref> which contrasts with the situation ten years prior: in 2010, European infrastructures had much less visibility: they usually lacked "a long-term perspective" and struggled "with securing the funding for more than 5 years".
== References ==
{{reflist|
== Bibliography ==
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=== Definitions ===
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▲* {{Cite journal| doi = 10.1093/joc/jqz052| issn = 0021-9916| volume = 71| issue = 1| pages = 1–26| last1 = Dienlin| first1 = Tobias| last2 = Johannes| first2 = Niklas| last3 = Bowman| first3 = Nicholas David| last4 = Masur| first4 = Philipp K| last5 = Engesser| first5 = Sven| last6 = Kümpel| first6 = Anna Sophie| last7 = Lukito| first7 = Josephine| last8 = Bier| first8 = Lindsey M| last9 = Zhang| first9 = Renwen| last10 = Johnson| first10 = Benjamin K| last11 = Huskey| first11 = Richard| last12 = Schneider| first12 = Frank M| last13 = Breuer| first13 = Johannes| last14 = Parry| first14 = Douglas A| last15 = Vermeulen| first15 = Ivar| last16 = Fisher| first16 = Jacob T| last17 = Banks| first17 = Jaime| last18 = Weber| first18 = René| last19 = Ellis| first19 = David A| last20 = Smits| first20 = Tim| last21 = Ivory| first21 = James D| last22 = Trepte| first22 = Sabine| last23 = McEwan| first23 = Bree| last24 = Rinke| first24 = Eike Mark| last25 = Neubaum| first25 = German| last26 = Winter| first26 = Stephan| last27 = Carpenter| first27 = Christopher J| last28 = Krämer| first28 = Nicole| last29 = Utz| first29 = Sonja| last30 = Unkel| first30 = Julian| last31 = Wang| first31 = Xiaohui| last32 = Davidson| first32 = Brittany I| last33 = Kim| first33 = Nuri| last34 = Won| first34 = Andrea Stevenson| last35 = Domahidi| first35 = Emese| last36 = Lewis| first36 = Neil A| last37 = de Vreese| first37 = Claes| title = An Agenda for Open Science in Communication| journal = Journal of Communication| accessdate = 2021-10-31| date = 2021-02-01| url = https://doi.org/10.1093/joc/jqz052| hdl = 10919/99938| hdl-access = free}}
*
*{{cite journal |last1=Feder |first1=Toni |title=Joanne Cohn and the email list that led to arXiv |journal=[[Physics Today]] |date=2021-11-08 |volume=2021 |issue=4 |pages=1108a |doi=10.1063/PT.6.4.20211108a |bibcode=2021PhT..2021d1108. |s2cid=244015728 |doi-access=free}}
▲*{{Cite journal |ref={{harvid|Boston|2021}}| doi = 10.5860/crln.82.6.265| last = Boston| first = A. J.| title = Thinking politically about scholarly infrastructure: Commit the publishers to 2.5% {{!}} Boston | journal=College & Research Libraries News| accessdate = 2021-12-11| date = 2021-06-04| url = https://crln.acrl.org/index.php/crlnews/article/view/24973}}
▲*{{Cite journal| ref={{harvid|Fecher et al.|2021}}|doi = 10.1093/scipol/scab026| issn = 0302-3427| volume = 48| issue = 4| pages = 499–507| last1 = Fecher| first1 = Benedikt| last2 = Kahn| first2 = Rebecca| last3 = Sokolovska| first3 = Nataliia| last4 = Völker| first4 = Teresa| last5 = Nebe| first5 = Philip| title = Making a Research Infrastructure: Conditions and Strategies to Transform a Service into an Infrastructure| journal = Science and Public Policy| accessdate = 2021-12-22| date = 2021-08-01| url = https://doi.org/10.1093/scipol/scab026}}
▲*{{Cite journal| ref={{harvid|Brembs et al.|2021}}|last1 = Brembs| first1 = Björn| last2 = Förstner| first2 = Konrad| last3 = Goedicke| first3 = Michael| last4 = Konrad| first4 = Uwe| last5 = Wannemacher| first5 = Klaus| last6 = Kett| first6 = Jürgen| title = Plan I - Towards a sustainable research information infrastructure| accessdate = 2022-01-11| date = 2021-01-21| doi=10.5281/zenodo.4454640 | url = https://zenodo.org/record/4454640}}
=== Conference ===
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*{{Cite conference| ref={{harvid|
*
* {{Cite conference| publisher = OpenEdition Press| doi = 10.4000/proceedings.elpub.2018.27| conference = 22nd International Conference on Electronic Publishing| last1= Becerril-García| first1= Arianna| last2= Aguado-López| first2= Eduardo| title = The End of a Centralized Open Access Project and the Beginning of a Community-Based Sustainable Infrastructure for Latin America: Redalyc.org after Fifteen Years| book-title = 22nd International Conference on Electronic Publishing| accessdate = 2021-10-31| date = 2018-06-15| url = https://hal.archives-ouvertes.fr/hal-01816693v1| hdl = 20.500.11799/105500| hdl-access = free}}
▲*{{Cite
* {{Cite conference| publisher = Open Science Framework| last = Lobo| first = Matheus Pereira| title = An open essay on open science| accessdate = 2021-10-31| date = 2019-04-15| url = https://osf.io/42jsg}}
=== Other resources ===
* {{cite web |ref={{harvid|OpenDOAR Statistics}} |title=OpenDOAR Statistics |work=OpenDOAR |url= https://v2.sherpa.ac.uk/view/repository_visualisations/1.html}}
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* {{cite mailing list |last=Berners-Lee |first=Tim |date=August 6, 1991 |title=Qualifiers on Hypertext Links... |mailing-list=alt.hypertext |url=https://www.w3.org/People/Berners-Lee/1991/08/art-6484.txt}}
* {{Cite web| last = Guédon| first = Jean-Claude| title = Open Access: Toward the Internet of the Mind| work = BOAI| accessdate = 2021-12-12| url = https://www.budapestopenaccessinitiative.org/boai15/open-access-toward-the-internet-of-the-mind/}}▼
▲* {{Cite web| title =
▲* {{Cite web| last = Guédon| first = Jean-Claude| title = Open Access: Toward the Internet of the Mind| work = BOAI
* {{cite journal |last=Bilder |first=Geoffrey |date=2020-12-02 |url=https://www.crossref.org/blog/crossrefs-board-votes-to-adopt-the-principles-of-open-scholarly-infrastructure/ |title=Crossref's Board votes to adopt the Principles of Open Scholarly Infrastructure |website=Blog |publisher=Crossref|doi=10.64000/hzemx-j7n79 }}
* {{cite web |author=The Dryad Team |date=2020-12-08 |url=https://blog.datadryad.org/2020/12/08/dryads-commitment-to-the-principles-of-open-scholarly-infrastructure/ |title=Dryad's Commitment to the Principles of Open Scholarly Infrastructure |website=Dryad news}}
* {{cite web |title=Open Science MOOC Response to UNESCO Draft Open Science Recommendations |author=((Open Science MOOC 2020 Steering Committee)) |date=December 30, 2020 |url=https://en.unesco.org/sites/default/files/comments_osr_partner_open_science_mooc_document.pdf}}
* {{cite web |last=Di Giambattista |first=Chiara |date=2021-08-09 |url=https://opencitations.wordpress.com/2021/08/09/opencitations-compliance-with-the-principles-of-open-scholarly-infrastructure/ |title=OpenCitations' compliance with the Principles of Open Scholarly Infrastructure |website=OpenCitations blog}}
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