References#

[1]

Jonny L. Saunders. Decentralized Infrastructure for (Neuro)science. 2022-08-31. URL: http://arxiv.org/abs/2209.07493 (visited on 2023-03-01), arXiv:2209.07493, doi:10.48550/arXiv.2209.07493.

[2]

Arnaud Legout, G. Urvoy-Keller, and P. Michiardi. Rarest first and choke algorithms are enough. In Proceedings of the 6th ACM SIGCOMM on Internet Measurement - IMC '06, 203. ACM Press, 2006. URL: http://portal.acm.org/citation.cfm?doid=1177080.1177106 (visited on 2018-11-09), doi:10.1145/1177080.1177106.

[3]

Bram Cohen. Incentives Build Robustness in BitTorrent. 2003-05-22. URL: http://bittorrent.org/bittorrentecon.pdf.

[4]

Maxwell Ogden. Dat - Distributed Dataset Synchronization And Versioning. 2017-01-31. URL: https://osf.io/nsv2c (visited on 2021-10-01), doi:10.31219/osf.io/nsv2c.

[5]

Christine Lemmer-Webber, Randy Farmer, and Juliana Sims. The Heart of Spritely: Distributed Objects and Capability Security. URL: https://www.spritely.institute/static/papers/spritely-core.html (visited on 2023-06-07).

[6]

Jonny L. Saunders. Surveillance Graphs. 2023-04-02T00:00:00+00:00. URL: https://jon-e.net/surveillance-graphs (visited on 2023-06-08), arXiv:hc:54749, doi:10.17613/syv8-cp10.

[7]

Axel Polleres, Maulik Rajendra Kamdar, Javier David Fernández, Tania Tudorache, and Mark Alan Musen. A more decentralized vision for Linked Data. Semantic Web, 11(1):101–113, 2020-01-31. URL: https://www.medra.org/servlet/aliasResolver?alias=iospress&doi=10.3233/SW-190380 (visited on 2023-06-29), doi:10.3233/SW-190380.

[8]

Jeremy Tandy, Ivan Herman, and Gregg Kellogg. Generating RDF from Tabular Data on the Web. 2015-12-17. URL: https://www.w3.org/TR/csv2rdf/ (visited on 2023-06-28).

[9]

Victor Charpenay, Maxime Lefrançois, and María Poveda Villalón. JSON Schema in RDF. 2023-06-14. URL: https://www.w3.org/2019/wot/json-schema (visited on 2023-06-28).

[10]

Sierra Moxon, Harold Solbrig, Deepak Unni, Dazhi Jiao, Richard Bruskiewich, James Balhoff, Gaurav Vaidya, William Duncan, Harshad Hegde, Mark Miller, Matthew Brush, Nomi Harris, Melissa Haendel, and Christopher Mungall. The linked data modeling language (linkml): a general-purpose data modeling framework grounded in machine-readable semantics. In CEUR Workshop Proceedings, volume 3073, 148–151. CEUR-WS, 2021. URL: https://pure.johnshopkins.edu/en/publications/the-linked-data-modeling-language-linkml-a-general-purpose-data-m (visited on 2023-06-28).

[11]

Ruben Verborgh, Sam Coppens, Miel Vander Sande, Erik Mannens, Pieter Colpaert, and Rik Van de Walle. Web-Scale Querying through Linked Data Fragments. In Proceedings of the 7th Workshop on Linked Data on the Web. 2014-04-08.

[12]

Ruben Verborgh, Miel Vander Sande, Olaf Hartig, Joachim Van Herwegen, Laurens De Vocht, Ben De Meester, Gerald Haesendonck, and Pieter Colpaert. Triple Pattern Fragments: A low-cost knowledge graph interface for the Web. Journal of Web Semantics, 37–38:184–206, 2016-03. URL: https://linkinghub.elsevier.com/retrieve/pii/S1570826816000214 (visited on 2023-06-08), doi:10.1016/j.websem.2016.03.003.

[13]

Javier D. Fernández, Miguel A. Martínez-Prieto, Claudio Gutiérrez, Axel Polleres, and Mario Arias. Binary RDF representation for publication and exchange (HDT). Journal of Web Semantics, 19:22–41, 2013-03-01. URL: https://www.sciencedirect.com/science/article/pii/S1570826813000036 (visited on 2023-06-29), doi:10.1016/j.websem.2013.01.002.

[14]

John Kunze, Scout Calvert, Jeremy D. DeBarry, Matthew Hanlon, Greg Janée, and Sandra Sweat. Persistence Statements: Describing Digital Stickiness. Data Science Journal, 16(0):39, 2017-08-14. URL: http://datascience.codata.org/articles/10.5334/dsj-2017-039/ (visited on 2022-09-07), doi:10.5334/dsj-2017-039.