@book{kirchhoff2015onlinekommunikation,
  address = {Leverkusen},
  author = {Kirchhoff, Sabine},
  interhash = {2ee4b6e90c8fe1ce1b87a24450e81511},
  intrahash = {2334a2a5e9983ecbffe287c5f2c72fab},
  isbn = {3825241882 9783825241889},
  publisher = {Budrich},
  refid = {897066285},
  title = {Onlinekommunikation im Social Web : Mythen, Theorien und Praxisbeispiele},
  url = {http://www.worldcat.org/search?qt=worldcat_org_all&q=9783825241889},
  year = 2015
}

@article{hendler2001agents,
  abstract = {Many challenges of bringing communicating multiagent systems to the Web require ontologies. The integration of agent technology and ontologies could significantly affect the use of Web services and the ability to extend programs to perform tasks for users more efficiently and with less human intervention.},
  acmid = {630623},
  address = {Piscataway, NJ, USA},
  author = {Hendler, James},
  doi = {10.1109/5254.920597},
  interhash = {2f257e27d6ebc1694c6f27628d520653},
  intrahash = {eb1408c87278d75b075edf1d4e511d50},
  issn = {1541-1672},
  issue = {2},
  journal = {IEEE Intelligent Systems},
  month = {March},
  numpages = {8},
  pages = {30--37},
  publisher = {IEEE Educational Activities Department},
  title = {Agents and the Semantic Web},
  url = {http://dx.doi.org/10.1109/5254.920597},
  volume = 16,
  year = 2001
}

@book{breitman2007semantic,
  asin = {184628581X},
  author = {Breitman, Karin and Casanova, Marco Antonio and Truszkowski, Walt},
  dewey = {004.678},
  ean = {9781846285813},
  edition = {1st Edition.},
  interhash = {cd534ce0f11309b1b2f78e8d6701a52e},
  intrahash = {6010d4e7cabd1345dcc5875ddf7cf781},
  isbn = {184628581X},
  publisher = {Springer London},
  title = {Semantic Web: Concepts, Technologies and Applications (NASA Monographs in Systems and Software Engineering)},
  url = {http://www.amazon.de/Semantic-Web-Technologies-Applications-Engineering/dp/184628581X},
  year = 2007
}

@phdthesis{mika2006social,
  author = {Mika, Peter},
  file = {mika2006social.pdf:mika2006social.pdf:PDF},
  groups = {public},
  interhash = {dc03e95d7e66fb1fd3737da243d3114f},
  intrahash = {f6f62e6c473f660673b7153afa96b577},
  school = {Vrije Universiteit Amsterdam},
  timestamp = {2011.07.29},
  title = {Social Networks and the Semantic Web},
  username = {dbenz},
  year = 2006
}

@book{groppe2011management,
  asin = {3642193560},
  author = {Groppe, Sven},
  dewey = {006},
  ean = {9783642193569},
  edition = {1., st Edition.},
  interhash = {10c42c5bdb7216ce1485b5cc3b52b90c},
  intrahash = {e42a3f87c913af2fde57270aed9c31db},
  isbn = {3642193560},
  publisher = {Springer, Berlin},
  title = {Data Management and Query Processing in Semantic Web Databases},
  url = {http://www.amazon.de/Management-Query-Processing-Semantic-Databases/dp/3642193560},
  year = 2011
}

@inproceedings{christiaens2006metadata,
  abstract = {In this paper we give a brief overview of different metadata mechanisms (like ontologies and folksonomies) and how they relate to each other. We identify major strengths and weaknesses of these mechanisms. We claim that these mechanisms can be classified from restricted (e.g., ontology) to free (e.g., free text tagging). In our view, these mechanisms should not be used in isolation, but rather as complementary solutions, in a continuous process wherein the strong points of one increase the semantic depth of the other. We give an overview of early active research already going on in this direction and propose that methodologies to support this process be developed. We demonstrate a possible approach, in which we mix tagging, taxonomy and ontology.},
  author = {Christiaens, Stijn},
  booktitle = {Lecture Notes in Computer Science: On the Move to Meaningful Internet Systems 2006: OTM 2006 Workshops},
  file = {christiaens2006metadata.pdf:christiaens2006metadata.pdf:PDF},
  groups = {public},
  interhash = {f733d993459329ed1ef9f26d303ba0d9},
  intrahash = {efc1396e845f3db1688dc8ef154d9520},
  lastdatemodified = {2007-01-04},
  lastname = {Christiaens},
  own = {notown},
  pdf = {christiaens06-metadata.pdf},
  publisher = {Springer},
  read = {notread},
  timestamp = {2007-09-11 13:31:23},
  title = {Metadata Mechanisms: From Ontology to Folksonomy ... and Back},
  url = {http://www.springerlink.com/content/m370107220473394},
  username = {dbenz},
  workshoppub = {1},
  year = 2006
}

@article{carroll2005named,
  abstract = {The Semantic Web consists of many RDF graphs nameable by URIs. This paper extends the syntax and semantics of RDF to cover such named graphs. This enables RDF statements that describe graphs, which is beneficial in many Semantic Web application areas. Named graphs are given an abstract syntax, a formal semantics, an XML syntax, and a syntax based on N3. SPARQL is a query language applicable to named graphs. A specific application area discussed in detail is that of describing provenance information. This paper provides a formally defined framework suited to being a foundation for the Semantic Web trust layer.},
  author = {Carroll, Jeremy J. and Bizer, Christian and Hayes, Pat and Stickler, Patrick},
  interhash = {fbe2169cf24955acfa2c6462eee5f442},
  intrahash = {4a9b2ec8532c73db270604ddfc2550cf},
  journal = {Journal of Web Semantics},
  number = 4,
  pages = {247-267},
  title = {Named Graphs},
  url = {http://citeseerx.ist.psu.edu/viewdoc/download;jsessionid=3CB749B8395B0323CC948BB579941343?doi=10.1.1.99.7659&rep=rep1&type=pdf},
  volume = 3,
  year = 2005
}

@article{bernerslee2001semantic,
  author = {Berners-Lee, Tim and Hendler, James and Lassila, Ora},
  interhash = {e87f09446138a81e6478625da97885b6},
  intrahash = {222934145a71a9d6cfbbb375d4d62c1d},
  journal = {Scientific American},
  lastdatemodified = {2007-04-27},
  lastname = {Berners-Lee},
  month = May,
  number = 5,
  own = {notown},
  pages = {34-43},
  read = {notread},
  title = {The Semantic Web},
  url = {http://www.sciam.com/article.cfm?articleID=00048144-10D2-1C70-84A9809EC588EF21},
  volume = 284,
  year = 2001
}

@inproceedings{zhang2004web,
  abstract = {We address the problem of integrating objects from a source taxonomy into a master taxonomy. This problem is not only currently pervasive on the web, but also important to the emerging semantic web. A straightforward approach to automating this process would be to train a classifier for each category in the master taxonomy, and then classify objects from the source taxonomy into these categories. In this paper we attempt to use a powerful classification method, Support Vector Machine (SVM), to attack this problem. Our key insight is that the availability of the source taxonomy data could be helpful to build better classifiers in this scenario, therefore it would be beneficial to do transductive learning rather than inductive learning, i.e., learning to optimize classification performance on a particular set of test examples. Noticing that the categorizations of the master and source taxonomies often have some semantic overlap, we propose a method, Cluster Shrinkage (CS), to further enhance the classification by exploiting such implicit knowledge. Our experiments with real-world web data show substantial improvements in the performance of taxonomy integration.},
  address = {New York, NY, USA},
  author = {Zhang, Dell and Lee, Wee Sun},
  booktitle = {WWW '04: Proceedings of the 13th international conference on World Wide Web},
  file = {zhang2004web.pdf:zhang2004web.pdf:PDF},
  interhash = {7edb6ba8814bb3382ffaeb009d5a3183},
  intrahash = {b683a9061fe344cfbcd62aa85e44d2c4},
  lastdatemodified = {2005-08-07},
  lastname = {Zhang},
  own = {own},
  pages = {472--481},
  pdf = {zhang04.pdf},
  publisher = {ACM Press},
  read = {notread},
  title = {Web taxonomy integration using support vector machines},
  url = {zhang04.ps},
  year = 2004
}

@inproceedings{ankolekar2007two,
  abstract = {A common perception is that there are two competing visions for the future evolution of the Web: the Semantic Web and Web 2.0. A closer look, though, reveals that the core technologies and concerns of these two approaches are complementary and that each field can and must draw from the other’s strengths. We believe that future web applications will retain the Web 2.0 focus on community and usability, while drawing on Semantic Web infrastructure to facilitate mashup-like information sharing. However, there are several open issues that must be addressed before such applications can become commonplace. In this paper, we outline a semantic weblogs scenario that illustrates the potential for combining Web 2.0 and Semantic Web technologies, while highlighting the unresolved issues that impede its realization. Nevertheless, we believe that the scenario can be realized in the short-term. We point to recent progress made in resolving each of the issues as well as future research directions for each of the communities.},
  address = {New York, NY, USA},
  author = {Ankolekar, Anupriya and Krötzsch, Markus and Tran, Thanh and Vrandecic, Denny},
  booktitle = {WWW '07: Proceedings of the 16th international conference on World Wide Web},
  doi = {http://doi.acm.org/10.1145/1242572.1242684},
  file = {ankolekar2007two.pdf:ankolekar2007two.pdf:PDF},
  groups = {public},
  interhash = {1e51bd6cd043142a8de98b93e82b68b1},
  intrahash = {6b493ae653fcff556997f30273d766b9},
  isbn = {978-1-59593-654-7},
  location = {Banff, Alberta, Canada},
  pages = {825--834},
  publisher = {ACM Press},
  timestamp = {2007-08-05 16:27:33},
  title = {The two cultures: mashing up web 2.0 and the semantic web},
  url = {http://portal.acm.org/citation.cfm?id=1242684&coll=GUIDE&dl=ACM&CFID=21633871&CFTOKEN=81037701},
  username = {dbenz},
  year = 2007
}

@article{berendt2010bridging,
  author = {Berendt, Bettina and Hotho, Andreas and Stumme, Gerd},
  doi = {DOI: 10.1016/j.websem.2010.04.008},
  groups = {public},
  interhash = {4969eb2b7bf1fabe60c5f23ab6383d77},
  intrahash = {f8d7bc2af5753906dc3897196daac18c},
  issn = {1570-8268},
  journal = {Web Semantics: Science, Services and Agents on the World Wide Web},
  journalpub = {1},
  note = {Bridging the Gap--Data Mining and Social Network Analysis for Integrating Semantic Web and Web 2.0; The Future of Knowledge Dissemination: The Elsevier Grand Challenge for the Life Sciences},
  number = {2-3},
  pages = {95 - 96},
  timestamp = {2010-08-09 07:26:14},
  title = {Bridging the Gap--Data Mining and Social Network Analysis for Integrating Semantic Web and Web 2.0},
  url = {http://www.sciencedirect.com/science/article/B758F-4YXK4HW-1/2/4cb514565477c54160b5e6eb716c32d7},
  username = {dbenz},
  volume = 8,
  year = 2010
}

@incollection{christiaens2006metadata,
  abstract = {In this paper we give a brief overview of different metadata mechanisms (like ontologies and folksonomies) and how they relate to each other. We identify major strengths and weaknesses of these mechanisms. We claim that these mechanisms can be classified from restricted (e.g., ontology) to free (e.g., free text tagging). In our view, these mechanisms should not be used in isolation, but rather as complementary solutions, in a continuous process wherein the strong points of one increase the semantic depth of the other. We give an overview of early active research already going on in this direction and propose that methodologies to support this process be developed. We demonstrate a possible approach, in which we mix tagging, taxonomy and ontology.},
  author = {Christiaens, Stijn},
  booktitle = {Lecture Notes in Computer Science: On the Move to Meaningful Internet Systems 2006: OTM 2006 Workshops},
  file = {christiaens2006metadata.pdf:christiaens2006metadata.pdf:PDF},
  interhash = {f733d993459329ed1ef9f26d303ba0d9},
  intrahash = {efc1396e845f3db1688dc8ef154d9520},
  lastdatemodified = {2007-01-04},
  lastname = {Christiaens},
  own = {notown},
  pdf = {christiaens06-metadata.pdf},
  publisher = {Springer},
  read = {notread},
  title = {Metadata Mechanisms: From Ontology to Folksonomy ... and Back},
  url = {http://www.springerlink.com/content/m370107220473394},
  year = 2006
}

@inproceedings{wu2006exploring,
  abstract = {In order to obtain a machine understandable semantics for web resources, research on the Semantic Web tries to an- notate web resources with concepts and relations from ex- plicitly de¯ned formal ontologies. This kind of formal an- notation is usually done manually or semi-automatically. In this paper, we explore a complement approach that focuses on the \social annotations of the web" which are annota- tions manually made by normal web users without a pre- de¯ned formal ontology. Compared to the formal annota- tions, although social annotations are coarse-grained, infor- mal and vague, they are also more accessible to more peo- ple and better re°ect the web resources' meaning from the users' point of views during their actual usage of the web re- sources. Using a social bookmark service as an example, we show how emergent semantics [2] can be statistically derived from the social annotations. Furthermore, we apply the de- rived emergent semantics to discover and search shared web bookmarks. The initial evaluation on our implementation shows that our method can e®ectively discover semantically related web bookmarks that current social bookmark service can not discover easily.},
  address = {New York, NY, USA},
  author = {Wu, Xian and Zhang, Lei and Yu, Yong},
  booktitle = {WWW '06: Proceedings of the 15th international conference on World Wide Web},
  file = {wu2006exploring.pdf:wu2006exploring.pdf:PDF},
  groups = {public},
  interhash = {478741551c92402f539a90a9caed61b6},
  intrahash = {2ff38a7f8e9e3941d0598877fe964eb5},
  lastdatemodified = {2007-01-04},
  lastname = {Wu},
  own = {notown},
  pages = {417--426},
  pdf = {wu06-exploring.pdf},
  publisher = {ACM Press},
  read = {notread},
  timestamp = {2007-09-11 13:31:41},
  title = {Exploring social annotations for the semantic web},
  url = {http://doi.acm.org/10.1145/1135777.1135839},
  username = {dbenz},
  year = 2006
}

@article{siorpaes2008games,
  abstract = {Weaving the Semantic Web requires that humans contribute their labor and judgment for creating, extending, and updating formal knowledge structures. Hiding such tasks behind online multiplayer games presents the tasks as fun and intellectually challenging entertainment.},
  address = {Los Alamitos, CA, USA},
  author = {Siorpaes, Katharina and Hepp, Martin},
  doi = {http://doi.ieeecomputersociety.org/10.1109/MIS.2008.45},
  file = {siorpaes2008games.pdf:siorpaes2008games.pdf:PDF},
  groups = {public},
  interhash = {9852833e23b841db871ed6776f78922b},
  intrahash = {b5f12aecb395b0e5bf4b03b816a46c03},
  issn = {1541-1672},
  journal = {IEEE Intelligent Systems},
  journalpub = {1},
  number = 3,
  pages = {50-60},
  publisher = {IEEE Computer Society},
  timestamp = {2010-03-04 11:14:58},
  title = {Games with a Purpose for the Semantic Web},
  url = {http://www.computer.org/portal/web/csdl/doi/10.1109/MIS.2008.45},
  username = {dbenz},
  volume = 23,
  year = 2008
}