@article{Berners-Lee-The-2001, title = {The semantic Web}, author = {T. Berners-Lee and J. Hendler and O. Lassila}, journal = {Scientific American}, number = 5, pages = {28-37}, volume = 284, year = 2001, biburl = {http://www.bibsonomy.org/bibtex/2efb28931e793716704e1bc1b0db207da/pac}, keywords = {semantic_web wismasys0809} } @article{Berners-Lee-The-2001, title = {The semantic Web}, author = {T. Berners-Lee and J. Hendler and O. Lassila}, journal = {Scientific American}, number = 5, pages = {28-37}, volume = 284, year = 2001, biburl = {http://www.bibsonomy.org/bibtex/2efb28931e793716704e1bc1b0db207da/zoka}, keywords = {semantic_web wismasys0809} } @article{Berners-Lee-The-2001, title = {The semantic Web}, author = {T. Berners-Lee and J. Hendler and O. Lassila}, journal = {Scientific American}, number = 5, pages = {28-37}, volume = 284, year = 2001, biburl = {http://www.bibsonomy.org/bibtex/2efb28931e793716704e1bc1b0db207da/dnoack}, keywords = {semantic_web wismasys0809 web_3.0} } @article{Berners-Lee-The-2001, title = {The semantic Web}, author = {T. Berners-Lee and J. Hendler and O. Lassila}, journal = {Scientific American}, number = 5, pages = {28-37}, volume = 284, year = 2001, biburl = {http://www.bibsonomy.org/bibtex/2efb28931e793716704e1bc1b0db207da/kirylenka}, keywords = {semantic_Web wismasys0809} } @article{Berners-Lee-The-2001, title = {The semantic Web}, author = {T. Berners-Lee and J. Hendler and O. Lassila}, journal = {Scientific American}, number = 5, pages = {28-37}, volume = 284, year = 2001, biburl = {http://www.bibsonomy.org/bibtex/2efb28931e793716704e1bc1b0db207da/siso}, keywords = {informationswissenschaft semantic_web} } @article{Berners-Lee-The-2001, title = {The semantic Web}, author = {T. Berners-Lee and J. Hendler and O. Lassila}, journal = {Scientific American}, number = 5, pages = {28-37}, volume = 284, year = 2001, biburl = {http://www.bibsonomy.org/bibtex/2efb28931e793716704e1bc1b0db207da/flöckchen}, keywords = {semantic_web internet wismasys0809} } @article{Berners-Lee-The-2001, title = {The semantic Web}, author = {T. Berners-Lee and J. Hendler and O. Lassila}, journal = {Scientific American}, number = 5, pages = {28-37}, volume = 284, year = 2001, biburl = {http://www.bibsonomy.org/bibtex/2efb28931e793716704e1bc1b0db207da/juver}, keywords = {semantic_web information_science wismasys0809} } @article{Berners-Lee-The-2001, title = {The semantic Web}, author = {T. Berners-Lee and J. Hendler and O. Lassila}, journal = {Scientific American}, number = 5, pages = {28-37}, volume = 284, year = 2001, biburl = {http://www.bibsonomy.org/bibtex/2efb28931e793716704e1bc1b0db207da/p.maghferat}, keywords = {wismasys0809' semantic_Web} } @article{Noy-Creating-2001, title = {Creating Semantic Web contents with Protégé-2000}, author = {Natalya F. Noy and Michael Sintek and Stefan Decker and Monica Crubézy and Ray W. Fergerson and Mark A. Musen}, journal = {IEEE Intelligent Systems}, number = 2, pages = {60-71}, volume = 16, year = 2001, abstract = {Because we can process only a tiny fraction of information available on the Web, we must turn to machines for help in processing and analyzing its contents. With current technology, machines cannot understand and interpret the meaning of the information in natural-language form, which is how most Web information is represented today. We need a Semantic Web to express information in a precise, machine-interpretable form, so software agents processing the same set of data share an understanding of what the terms describing the data mean.}, biburl = {http://www.bibsonomy.org/bibtex/29b2cb092ec772daad8d86b8b1d72453d/kirylenka}, keywords = {Protégé-2000 wismasys0809 Semantic_Web} } @article{Noy-Creating-2001, title = {Creating Semantic Web contents with Protégé-2000}, author = {Natalya F. Noy and Michael Sintek and Stefan Decker and Monica Crubézy and Ray W. Fergerson and Mark A. Musen}, journal = {IEEE Intelligent Systems}, number = 2, pages = {60-71}, volume = 16, year = 2001, abstract = {Because we can process only a tiny fraction of information available on the Web, we must turn to machines for help in processing and analyzing its contents. With current technology, machines cannot understand and interpret the meaning of the information in natural-language form, which is how most Web information is represented today. We need a Semantic Web to express information in a precise, machine-interpretable form, so software agents processing the same set of data share an understanding of what the terms describing the data mean.}, biburl = {http://www.bibsonomy.org/bibtex/29b2cb092ec772daad8d86b8b1d72453d/flashback333}, keywords = {Protégé wismasys0809 Semantic_Web} } @article{Berners-Lee-The-2001, title = {The semantic Web}, author = {T. Berners-Lee and J. Hendler and O. Lassila}, journal = {Scientific American}, number = 5, pages = {28-37}, volume = 284, year = 2001, biburl = {http://www.bibsonomy.org/bibtex/2efb28931e793716704e1bc1b0db207da/flashback333}, keywords = {wismasys0809 Semantic_Web} } @book{keyhere, title = {Web-Services & Geschäftsprozesse im Semantic Web}, author = {Johannes Lischka Hans-Georg Fill}, journal = {Semantic Web}, pages = {321--335}, year = 2006, url = {http://dx.doi.org/10.1007/3-540-29325-6_21}, description = {Überblick über die Zusammenhänge von Web-Services, Geschäftsprozessen und Semantic Web aus Sicht der Wirtschaftsinformatik. Ausgehend von wirtschaftsinformatischen Konzepten wird auf das Mediationspotential von semantischen Technologien, aktuelle Rahmenwerke zur Umsetzung und erste Ansätze für eine wirtschaftliche Betrachtung der aktuell diskutierten Technologien eingegangen. Anhand eines konkreten Fallbeispieles aus dem universitären Umfeld werden abschliessend die theoretischen Konzepte praktisch erläutert.}, abstract = {Der vorliegende Beitrag gibt einen Überblick über die Zusammenhänge von Web-Services, Geschäftsprozessen und Semantic Web aus Sicht der Wirtschaftsinformatik. Ausgehend von wirtschaftsinformatischen Konzepten wird auf das Mediationspotential von semantischen Technologien, aktuelle Rahmenwerke zur Umsetzung und erste Ansätze für eine wirtschaftliche Betrachtung der aktuell diskutierten Technologien eingegangen. Anhand eines konkreten Fallbeispieles aus dem universitären Umfeld werden abschliessend die theoretischen Konzepte praktisch erläutert. }, biburl = {http://www.bibsonomy.org/bibtex/2ae20b51455abe6d7da1324feeed89e8b/denisegst}, keywords = {lv_crossmedia_2 Semantic_Web} } @inproceedings{specia_2007, title = {Integrating Folksonomies with the Semantic Web}, address = {Berlin Heidelberg, Germany}, author = {Lucia Specia and Enrico Motta}, booktitle = {Proceedings of the European Semantic Web Conference (ESWC2007)}, editor = {Enrico Franconi and Michael Kifer and Wolfgang May}, month = {July}, pages = {624-639}, publisher = {Springer-Verlag}, series = {LNCS}, volume = 4519, year = 2007, url = {http://www.eswc2007.org/pdf/eswc07-specia.pdf}, abstract = {While tags in collaborative tagging systems serve primarily an indexing purpose, facilitating search and navigation of resources, the use of the same tags by more than one individual can yield a collective classification schema. We present an approach for making explicit the semantics behind the tag space in social tagging systems, so that this collaborative organization can emerge in the form of partial ontologies. This is achieved by using a combination of shallow pre-processing strategies and statistical techniques together with knowledge provided by ontologies available on the semantic web. Preliminary results on the Del.icio.us and Flickr tag sets showed that the approach is very promising: it generates clusters with highly related tags corresponding to concepts in ontologies, and meaningful relationships among subsets of these tags can be identified.}, biburl = {http://www.bibsonomy.org/bibtex/235842f5deb96573cc24e818697d4bbc8/tobold}, keywords = {field ontology_evolution semantic_web tagging evaluation clustering} } @inproceedings{Wilkinson:2003, title = {Efficient {RDF} Storage and Retrieval in {Jena2}}, author = {Kevin Wilkinson and Craig Sayers and Harumi Kuno and Dave Reynolds}, booktitle = {Proc. First International Workshop on Semantic Web and Databases}, year = 2003, url = {http://www.cs.uic.edu/~ifc/SWDB/papers/Wilkinson_etal.pdf}, abstract = {RDF and related Semantic Web technologies have been the recent focus of much research activity. This work has led to new specifications for RDF and OWL. However, efficient implementations of these standards are needed to realize the vision of a world-wide semantic Web. In particular, implementations that scale to large, enterprise-class data sets are required. Jena2 is the second generation of Jena, a leading semantic web programmers' toolkit. This paper describes the persistence subsystem of Jena2 which is intended to support large datasets. This paper describes its features, the changes from Jena1, relevant details of the implementation and performance tuning issues. Query optimization for RDF is identified as a promising area for future research.}, biburl = {http://www.bibsonomy.org/bibtex/2a5d346acd4fdd67bd2fcebd7245e7733/diego_ma}, keywords = {semantic_web inf_retrieval RDF} } @misc{Hertel:2008, title = {{RDF} Storage and Retrieval Systems}, author = {Alice Hertel and Jeen Broekstra and Heiner Stuckenschmidt}, howpublished = {On-line}, year = 2008, url = {http://ki.informatik.uni-mannheim.de/fileadmin/publication/Hertel08RDFStorage.pdf}, abstract = {Ontologies are often used to improve data access. For this purpose, existing data has to be linked to an ontology and appropriate access mechanisms have to be provided. In this chapter, we review RDF storage and retrieval technologies as a common approach for accessing ontology-based data. We discuss different storage models, typical functionalities of RDF middleware such as data model support and reasoning capabilities and RDF query languages with a special focus on SPARQL as an emerging standard. We also discuss some trends such as support for expressive ontology and rule languages.}, biburl = {http://www.bibsonomy.org/bibtex/24db931ca8fe9d9c95bfd281d04c57a98/diego_ma}, keywords = {semantic_web web inf_retrieval RDF} } @inproceedings{DBLP:conf/hicss/DingZFJ05, title = {How the Semantic Web is Being Used: An Analysis of FOAF Documents}, author = {Li Ding and Lina Zhou and Timothy W. Finin and Anupam Joshi}, booktitle = {HICSS}, crossref = {DBLP:conf/hicss/2005}, year = 2005, url = {http://csdl2.computer.org/comp/proceedings/hicss/2005/2268/04/22680113c.pdf}, ee = {http://doi.ieeecomputersociety.org/10.1109/HICSS.2005.299}, bibsource = {DBLP, http://dblp.uni-trier.de}, biburl = {http://www.bibsonomy.org/bibtex/21b8d154b20c1d98866b000e56b5122f7/edna_foobar}, keywords = {social_networks semantic_web foaf darpa arpa homeland_security} } @article{keyhere, title = {Community-Driven Ontology Evolution Based on Folksonomies}, author = {Domenico Gendarmi and Filippo Lanubile}, journal = {On the Move to Meaningful Internet Systems 2006: OTM 2006 Workshops}, pages = {181--188}, year = 2006, url = {http://dx.doi.org/10.1007/11915034_41}, description = {SpringerLink - Book Chapter}, abstract = {The Semantic Web mission is to enable a better organization of the Web content to improve the searching, navigation and integration of the available information. Although the Semantic Web is intended for machines, the process of creating and maintainingit is a social one: only people, for example, have necessary skills to create and maintain ontologies. While most existingontologies are designed by single individuals or small groups of experts, actual ontology users are not involved in the developmentprocess. Such an individual approach in creating ontologies, lead to a weak community grounding. On the other hand, SocialSoftware is becoming increasingly popular among web users, giving opportunities to exploit the potential of collaborationwithin a community. Tools like wikis and folksonomies allow users to easily create new content and share contributions overa social network. Social Software tools can go beyond their current limits, by exploiting the power provided by semantic technologies.Conversely, Semantic Web tools can benefit from the ability of Social Software in fostering collaboration among users, bylowering entry barriers. In this paper we propose a new approach for ontology evolution, considering collaborative taggingsystems as an opportunity to complement classic approaches used in maintaining ontologies.}, biburl = {http://www.bibsonomy.org/bibtex/2ad454c976a58474f80345f28ffcc8b96/tobold}, keywords = {ontology_evolution sota_mcitn semantic_web tagging folksonomy} } @book{GRANDI2003, title = {An annotated bibliography on temporal and evolution aspects in the world wide web}, author = {F. Grandi}, year = 2003, url = {http://www-db.deis.unibo.it/~fgrandi/TWbib/twbib.pdf}, biburl = {http://www.bibsonomy.org/bibtex/25f29322b5ea9956be51347a55a309b85/jpsdias}, keywords = {semantic_web} } @article{page_taxonomic_2006, title = {Taxonomic names, metadata, and the Semantic Web}, author = {R. D. M. Page}, journal = {Biodiversity Informatics}, pages = {1-15}, volume = 3, year = 2006, biburl = {http://www.bibsonomy.org/bibtex/284a4935ed3390d400724491016e0f114/jpsdias}, keywords = {semantic_web} } @inproceedings{ROBERTSON2006, title = {Visualizing an historical semantic web with Heml}, address = {New York, NY, USA}, author = {Bruce G. Robertson}, booktitle = {WWW '06: Proceedings of the 15th international conference on World Wide Web}, pages = {1051--1052}, publisher = {ACM}, year = 2006, url = {http://portal.acm.org/citation.cfm?id=1136010}, location = {Edinburgh, Scotland}, isbn = {1-59593-323-9}, doi = {http://doi.acm.org/10.1145/1135777.1136010}, description = {Visualizing an historical semantic web with Heml}, abstract = {This poster presents ongoing efforts to enrich the RDF-based semantic Web with the tools of the Historical Event Markup and Linking Project (Heml). An experimental RDF vocabulary for Heml data is illustrated, as well as its use in storing and querying encoded historical events. Finally, the practical use of Heml-RDF is illustrated with a toolkit for the Piggy Bank semantic browser plugin.}, biburl = {http://www.bibsonomy.org/bibtex/225e22a879032d526d13c9bfddab62f34/jpsdias}, keywords = {semantic_web} }