@article{bechhofer2013linked,
  abstract = {Scientific data represents a significant portion of the linked open data cloud and scientists stand to benefit from the data fusion capability this will afford. Publishing linked data into the cloud, however, does not ensure the required reusability. Publishing has requirements of provenance, quality, credit, attribution and methods to provide the reproducibility that enables validation of results. In this paper we make the case for a scientific data publication model on top of linked data and introduce the notion of Research Objects as first class citizens for sharing and publishing.},
  author = {Bechhofer, Sean and Buchan, Iain and De Roure, David and Missier, Paolo and Ainsworth, John and Bhagat, Jiten and Couch, Philip and Cruickshank, Don and Delderfield, Mark and Dunlop, Ian and Gamble, Matthew and Michaelides, Danius and Owen, Stuart and Newman, David and Sufi, Shoaib and Goble, Carole},
  doi = {10.1016/j.future.2011.08.004},
  interhash = {8df8b7069a622aa2eae6d74e5fdc0a6b},
  intrahash = {f500b67a045765125183e23c827991d2},
  issn = {0167-739X},
  journal = {Future Generation Computer Systems},
  number = 2,
  pages = {599--611},
  title = {Why linked data is not enough for scientists},
  url = {http://www.sciencedirect.com/science/article/pii/S0167739X11001439},
  volume = 29,
  year = 2013
}

@inproceedings{vandesompel2010httpbased,
  abstract = {Dereferencing a URI returns a representation of the current state of the resource identified by that URI. But, on the Web representations of prior states of a resource are also available, for example, as resource versions in Content Management Systems or archival resources in Web Archives such as the Internet Archive. This paper introduces a resource versioning mechanism that is fully based on HTTP and uses datetime as a global version indicator. The approach allows "follow your nose" style navigation both from the current time-generic resource to associated time-specific version resources as well as among version resources. The proposed versioning mechanism is congruent with the Architecture of the World Wide Web, and is based on the Memento framework that extends HTTP with transparent content negotiation in the datetime dimension. The paper shows how the versioning approach applies to Linked Data, and by means of a demonstrator built for DBpedia, it also illustrates how it can be used to conduct a time-series analysis across versions of Linked Data descriptions.},
  author = {Van de Sompel, Herbert and Sanderson, Robert and Nelson, Michael L. and Balakireva, Lyudmila L. and Shankar, Harihar and Ainsworth, Scott},
  booktitle = {Proceedings of Linked Data on the Web (LDOW2010)},
  interhash = {0c517e7799d2c2da3f9b2a0daff27885},
  intrahash = {8f9405e8056dd827d9c72a48e229a65a},
  number = {1003.3661},
  publisher = {arXiv},
  series = {cs.DL},
  title = {An HTTP-Based Versioning Mechanism for Linked Data},
  url = {http://arxiv.org/abs/1003.3661},
  year = 2010
}

@incollection{rula2012diversity,
  abstract = {An increasing amount of data is published and consumed on the Web according to the Linked Data paradigm. In consideration of both publishers and consumers, the temporal dimension of data is important. In this paper we investigate the characterisation and availability of temporal information in Linked Data at large scale. Based on an abstract definition of temporal information we conduct experiments to evaluate the availability of such information using the data from the 2011 Billion Triple Challenge (BTC) dataset. Focusing in particular on the representation of temporal meta-information, i.e., temporal information associated with RDF statements and graphs, we investigate the approaches proposed in the literature, performing both a quantitative and a qualitative analysis and proposing guidelines for data consumers and publishers. Our experiments show that the amount of temporal information available in the LOD cloud is still very small; several different models have been used on different datasets, with a prevalence of approaches based on the annotation of RDF documents.},
  address = {Berlin/Heidelberg},
  author = {Rula, Anisa and Palmonari, Matteo and Harth, Andreas and Stadtmüller, Steffen and Maurino, Andrea},
  booktitle = {The Semantic Web – ISWC 2012},
  doi = {10.1007/978-3-642-35176-1_31},
  editor = {Cudré-Mauroux, Philippe and Heflin, Jeff and Sirin, Evren and Tudorache, Tania and Euzenat, Jérôme and Hauswirth, Manfred and Parreira, JosianeXavier and Hendler, Jim and Schreiber, Guus and Bernstein, Abraham and Blomqvist, Eva},
  interhash = {ea17ab98217d3ed32b06425a83fb25ab},
  intrahash = {2bf73337f9b2ca5abc5e07d1ee48cc30},
  isbn = {978-3-642-35175-4},
  pages = {492--507},
  publisher = {Springer },
  series = {Lecture Notes in Computer Science},
  title = {On the Diversity and Availability of Temporal Information in Linked Open Data},
  url = {http://dx.doi.org/10.1007/978-3-642-35176-1_31},
  volume = 7649,
  year = 2012
}

@article{bernerslee2013readwrite,
  abstract = {This paper discusses issues that will affect the future development of the Web, either increasing its power and utility, or alternatively suppressing its development. It argues for the importance of the continued development of the Linked Data Web, and describes the use of linked open data as an important component of that. Second, the paper defends the Web as a read–write medium, and goes on to consider how the read–write Linked Data Web could be achieved.},
  author = {Berners-Lee, Tim and O’Hara, Kieron},
  doi = {10.1098/rsta.2012.0513},
  eprint = {http://rsta.royalsocietypublishing.org/content/371/1987/20120513.full.pdf+html},
  interhash = {d7441404d63f5e6303e1c17f0aa27a8c},
  intrahash = {9ec5e708342fac1e2ea2726cb7e2acd8},
  journal = {Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences},
  number = 1987,
  title = {The read–write Linked Data Web},
  url = {http://rsta.royalsocietypublishing.org/content/371/1987/20120513.abstract},
  volume = 371,
  year = 2013
}

@article{karger2013standards,
  abstract = {The evolving Web has seen ever-growing use of structured data, thanks to the way it enhances information authoring, querying, visualization and sharing. To date, however, most structured data authoring and management tools have been oriented towards programmers and Web developers. End users have been left behind, unable to leverage structured data for information management and communication as well as professionals. In this paper, I will argue that many of the benefits of structured data management can be provided to end users as well. I will describe an approach and tools that allow end users to define their own schemas (without knowing what a schema is), manage data and author (not program) interactive Web visualizations of that data using the Web tools with which they are already familiar, such as plain Web pages, blogs, wikis and WYSIWYG document editors. I will describe our experience deploying these tools and some lessons relevant to their future evolution.},
  author = {Karger, David},
  doi = {10.1098/rsta.2012.0381},
  eprint = {http://rsta.royalsocietypublishing.org/content/371/1987/20120381.full.pdf+html},
  interhash = {587a510fb2d55abda118fc8e08309e4c},
  intrahash = {90d25a4bcdb5dcd12190f8823f086a02},
  journal = {Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences},
  month = mar,
  number = 1987,
  title = {Standards opportunities around data-bearing Web pages},
  url = {http://rsta.royalsocietypublishing.org/content/371/1987/20120381.abstract},
  volume = 371,
  year = 2013
}