User:Daniel Mietchen/Talks/Ciência Aberta, Questões Abertas
Wikimedia projects as platforms for Open Science
Watch the video
See the intro tweet
Science 2.0
[edit]Warmup: show of hands
[edit]- Number of people in the audience?
- 20
- Who has ever published a research article?
- 7
- Who has ever published a research article under an open license?
- 6
- Who has ever reviewed a research article?
- 7
- Who has ever signed their review of a research article?
- 4
- Who has ever used research datasets or scientific software published by others?
- 8
- Who has ever published research datasets or scientific software under an open license?
- 5
- Who has ever got scooped?
- 2
- Who has ever read a Wikipedia article (in any language)?
- 17
- Who has ever contributed to a Wikipedia article (in any language)?
- 7
Vision: Open science
[edit]Quotes
[edit]What have others said on the topic? |
---|
|
Reality today
[edit]- A figure from a recent paper:[1]
A water droplet surviving an attempt to be cut by a knife. | A water droplet cut by a knife. |
How things could be
[edit]A specification anyone can edit:
- Dynamics: Research is a process. The scientific journal of the future provides a platform for continuous and rapid publishing of workflows and other information pertaining to a research project, and for updating any such content by its original authors or collaboratively by relevant communities. Eventually, all scientific records should have a public version history or a public justification for not having one.
-
- example
- Version of record
- Updates automatically
- Editable format (SVG; blog post on the topic)
- Data and code on GitHub under open licenses
- PLOS Computational Biology Topic Pages (list)
- The workflows include writing of research documents, as piloted by the Biodiversity Data Journal.[4]
- example
-
- Scope: Data come in many different formats. The scientific journal of the future interoperates with databases and ontologies by way of open standards and concentrates on the contextualization of knowledge newly acquired through research, without limiting its scope in terms of topic or methodology.
- Access: Free access to scientific knowledge, and permissions to re-use and re-purpose it, are an invaluable source for research, innovation and education. The scientific journal of the future provides legally and technically barrier-free access to its contents, along with options for re-use and re-purposing that are stated clearly for both humans and machines.
- Replicability: Open access to all relevant core elements of a publication facilitates the verification and subsequent re-use of published content. The scientific journal of the future requires the publication of detailed methodologies — including all data and code — that form the basis of any research project.
- Review: The critical, transparent and impartial examination of information submitted by the professional community enhances the quality of publications. The scientific journal of the future supports post-publication peer review, and qualified reviews of submitted content shall always be made public.
- Presentation: Digitization opens up new opportunities to provide content, such as through semantic and multimedia enrichment. The scientific journal of the future adheres to open Web standards and creates a framework in which the technological possibilities of digital media can be exploited by authors, readers and machines alike, and content remains continuously linkable.
- .
- Interactive presentation using Lens
- Composition of plates on the fly (as opposed to static composite figures)
- .
- Transparency: Disclosure of conflicts of interest creates transparency. The scientific journal of the future promotes transparency by requiring its editorial board, the editors and the authors to disclose both existing and potential conflicts of interest with respect to a publication and to make explicit their contributions to any publication.
- Sustainability: Resources are limited. Ecological considerations are reflected in the design and production of the scientific journal of the future.
- Flexibility: Innovation is stifled by inflexible rules. Exceptions to the above rules are possible if justified in public.
Future of publishing
[edit]- Talk Transforming the way we publish research at Academic Publishing in Europe 2012:
Wikimedia
[edit]Wikimedia projects
[edit]WikiProjects
[edit]Key policies
[edit]- Five pillars
- Notability
- Verifiability
- No original research
- Conflicts of interest
- Rules on disclosure of paid editing, updated in 2014 (blog post, press)
Open knowledge
[edit]Semantic approaches
[edit]MediaWiki API
[edit]Data dumps
[edit]Visualizations
[edit]- Listen to Wikipedia
- Wikipulse
- Map of recent edits
- Wikistream
- Wikimedia project growth animation
- Wikipedia live monitor
- Wikimedia counter
- See also.org
Tools
[edit]See also wikidata:Wikidata:Tools/External tools.
Robots
[edit]GLAM
[edit]Events
[edit]- Wikimania
- Hackathons
- Zürich Hackathon 2014
- Coding da Vinci
- Edit-a-thons
- Wikipedia:Academy
- Wikipedia:Workshop
Notes
[edit]- m:Wikimedia Labs
- Wikimedia stats
- Signalling OA-ness
- m:List of Wikipedias
- WP:GLAM/Ship
- QRpedia
- Wikidata Toolkit
- Eupolybothrus
- Chenopodium
- WikiProject Taxonomy (i)
- WikiProject Taxonomy (ii)
- WikiProject Taxonomy (iii)
- WikiProject Field Notes
- The Botany of the Antarctic Voyage
- Clerck 1757 Svenska Spindlar
- open licensing of press releases and other PR materials (DLR example)
- incl. YouTube channel and Leibniz-Journal
- best biographies of scientists are usually obituaries (opportunity for upcoming Leibniz Newsletter)
- reusing media from Wikimedia Commons outside Wikimedia
- multimedia, composite figures
- Wikimedia aboard the MS Wissenschaft
- Wikimedia as a partner in Forschungsverbund Science 2.0
- Wikimedia as partner in research projects (e.g. RENDER)
How to contribute
[edit]- Wikipedia:School of Open course
- Wikipedia:The Wikipedia Adventure
- User:Rockpocket/Training
- MPI workshop
References
[edit]- ^ Lescroël, A. L.; Ballard, G.; Grémillet, D.; Authier, M.; Ainley, D. G. (2014). Descamps, Sébastien (ed.). "Antarctic Climate Change: Extreme Events Disrupt Plastic Phenotypic Response in Adélie Penguins". PLoS ONE. 9 (1): e85291. doi:10.1371/journal.pone.0085291. PMC 3906005. PMID 24489657.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) - ^ Yanashima, R.; García, A. A.; Aldridge, J.; Weiss, N.; Hayes, M. A.; Andrews, J. H. (2012). Docoslis, Aristides (ed.). "Cutting a Drop of Water Pinned by Wire Loops Using a Superhydrophobic Surface and Knife". PLoS ONE. 7 (9): e45893. doi:10.1371/journal.pone.0045893. PMC 3454355. PMID 23029297.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) - ^ Mietchen, D.; Maloney, C.; and Moskopp, N. D. (2013) Inconsistent XML as a Barrier to Reuse of Open Access Content. Journal Article Tag Suite Conference (JATS-Con) Proceedings 2013.
- ^ Smith, V.; Georgiev, T.; Stoev, P.; Biserkov, J.; Miller, J.; Livermore, L.; Baker, E.; Mietchen, D.; Couvreur, T. L. P.; Mueller, G.; Dikow, T.; Helgen, K. M.; Frank, J. I.; Agosti, D.; Roberts, D.; Penev, L. (2013). "Beyond dead trees: integrating the scientific process in the Biodiversity Data Journal". Biodiversity Data Journal. 1: e995. doi:10.3897/BDJ.1.e995.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) - ^ Stoev, P.; Komerički, A.; Akkari, N.; Liu, S.; Zhou, X.; Weigand, A. M.; Hostens, J.; Hunter, C. I.; Edmunds, S. C.; Porco, D.; Zapparoli, M.; Georgiev, T.; Mietchen, D.; Roberts, D.; Faulwetter, S.; Smith, V.; Penev, L. (2013). "Eupolybothrus cavernicolus Komerički & Stoev sp. N. (Chilopoda: Lithobiomorpha: Lithobiidae): The first eukaryotic species description combining transcriptomic, DNA barcoding and micro-CT imaging data". Biodiversity Data Journal. 1: e1013. doi:10.3897/BDJ.1.e1013.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) - ^ Williams, J. T.; Carpenter, K. E.; Van Tassell, J. L.; Hoetjes, P.; Toller, W.; Etnoyer, P.; Smith, M. (2010). Gratwicke, Brian (ed.). "Biodiversity Assessment of the Fishes of Saba Bank Atoll, Netherlands Antilles". PLoS ONE. 5 (5): e10676. doi:10.1371/journal.pone.0010676. PMC 2873961. PMID 20505760.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) CC0 full text media metadata - ^ Collins, F. S.; Tabak, L. A. (2014). "Policy: NIH plans to enhance reproducibility". Nature. 505 (7485): 612. doi:10.1038/505612a. PMC 4058759. PMID 24482835.
- ^ "Reviewer's Comments". Journal of Applied Behavior Analysis. 7 (3): 497–1453. 1974. doi:10.1901/jaba.1974.7-497b.
- ^ Mietchen, D.; Keupp, H.; Manz, B.; Volke, F. (2005). "Non-invasive diagnostics in fossils - Magnetic Resonance Imaging of pathological belemnites". Biogeosciences. 2 (2): 133. doi:10.5194/bg-2-133-2005.
{{cite journal}}
: CS1 maint: unflagged free DOI (link)
About
[edit]This page belongs to a workshop given on August 19, 2014, and a talk given two days later, both as part of Ciência Aberta, Questões Abertas at the Centro Brasileiro de Pesquisas Físicas in Rio de Janeiro, Brasil.
Contact
[edit]- Institutional
- @EvoMRI on Twitter
- Wikipedia talk page
- Wikipedia email