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Source

http://www.google.de/url?sa=t&rct=j&q=&esrc=s&source=web&cd=5&ved=0CDQQFjAE&url=http%3A%2F%2Fdigbib.ubka.uni-karlsruhe.de%2Fvolltexte%2Fdocuments%2F3131107&ei=HzFWVYvGMsiNsgGTyoFI&usg=AFQjCNE2FHUeR9oQTQlNC4TPedv4Mo3DaQ&sig2=Rlzpr7a3BLZZkqZCXXN_IA&bvm=bv.93564037,d.bGg&cad=rja

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Footnote

Vgl. unter: https://www.google.de/url?sa=t&rct=j&q=&esrc=s&source=web&cd=2&cad=rja&uact=8&ved=2ahUKEwizweHljdbcAhVS16QKHXcFD9QQFjABegQICRAB&url=https%3A%2F%2Fwww.researchgate.net%2Fpublication%2F271200105_Die_Autonomie_des_Menschen_und_der_Maschine_-_gegenwartige_Definitionen_von_Autonomie_zwischen_philosophischem_Hintergrund_und_technologischer_Umsetzbarkeit_Redigierte_Version_der_Magisterarbeit_Karls&usg=AOvVaw06orrdJmFF2xbCCp_hL26q.

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Abstract

More and more libraries starting semantic web projects. The question about the license of the data is not discussed or the discussion is deferred to the end of project. In this paper is discussed why the question of the license is so important in context of the semantic web that is should be one of the first aspects in a semantic web project. Also it will be shown why a public domain weaver is the only solution that fulfill the the special requirements of the semantic web and that guaranties the reuseablitly of semantic library data for a sustainability of the projects.

Content

Vortrag im Rahmen der Session 93. Cataloguing der WORLD LIBRARY AND INFORMATION CONGRESS: 76TH IFLA GENERAL CONFERENCE AND ASSEMBLY, 10-15 August 2010, Gothenburg, Sweden - 149. Information Technology, Cataloguing, Classification and Indexing with Knowledge Management

Object

Web 2.0

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Content

Karteikästen, Telefone, Multimedia-Möbel 1934 entwickelte Otlet die Idee eines weltweiten Wissens-"Netzes". Er versuchte, kaum dass Radio und Fernsehen erfunden waren, Multimedia-Konzepte zu entwickeln, um die Kooperationsmöglichkeiten für Forscher zu verbessern. Otlet zerbrach sich den Kopf darüber, wie Wissen über große Distanzen zugänglich gemacht werden kann. Er entwickelte Multimedia-Arbeitsmöbel, die mit Karteikästen, Telefonen und anderen Features das versuchten, was heute an jedem Rechner möglich ist. Auch ohne die Hilfe elektronischer Datenverarbeitung entwickelte er Ideen, deren Umsetzung wir heute unter Begriffen wie Web 2.0 oder Wikipedia kennen. Trotzdem sind sein Name und seine Arbeit heute weitgehend in Vergessenheit geraten. Als Vordenker von Hypertext und Internet gelten die US-Amerikaner Vannevar Bush, Ted Nelson und Douglas Engelbart. Die Überbleibsel der Mundaneum-Sammlung vermoderten jahrzehntelang auf halb verfallenen Dachböden.
Der Traum vom dynamischen, ständig wachsenden Wissensnetz Auch, weil Otlet bereits darüber nachdachte, wie in seinem vernetzten Wissenskatalog Anmerkungen einfließen könnten, die Fehler korrigieren oder Widerspruch abbilden. Vor dieser Analogie warnt jedoch Charles van den Heuvel von der Königlichen Niederländischen Akademie der Künste und Wissenschaften: Seiner Interpretation zufolge schwebte Otlet ein System vor, in dem Wissen hierarchisch geordnet ist: Nur eine kleine Gruppe von Wissenschaftlern sollte an der Einordnung von Wissen arbeiten; Bearbeitungen und Anmerkungen sollten, anders etwa als bei der Wikipedia, nicht mit der Information verschmelzen, sondern sie lediglich ergänzen. Das Netz, das Otlet sich ausmalte, ging weit über das World Wide Web mit seiner Hypertext-Struktur hinaus. Otlet wollte nicht nur Informationen miteinander verbunden werden - die Links sollten noch zusätzlich mit Bedeutung aufgeladen werden. Viele Experten sind sich einig, dass diese Idee von Otlet viele Parallelen zu dem Konzept des "semantischen Netz" aufweist. Dessen Ziel ist es, die Bedeutung von Informationen für Rechner verwertbar zu machen - so dass Informationen von ihnen interpretiert werden und maschinell weiterverarbeitet werden können. Projekte, die sich an einer Verwirklichung des semantischen Netzes versuchen, könnten von einem Blick auf Otlets Konzepte profitieren, so van den Heuvel, von dessen Überlegungen zu Hierarchie und Zentralisierung in dieser Frage. Im Mundaneum in Mons arbeitet man derzeit daran, Otlets Arbeiten zu digitalisieren, um sie ins Netz zu stellen. Das dürfte zwar noch ziemlich lange dauern, warnt Archivar Gillen. Aber wenn es soweit ist, wird sich endlich Otlets Vision erfüllen: Seine Sammlung des Wissens wird der Welt zugänglich sein. Papierlos, für jeden abrufbar."

Date

24.10.2008 14:19:22

Footnote

Vgl. unter: http://www.spiegel.de/netzwelt/web/0,1518,768312,00.html.

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Abstract

The Semantic Web in general and the Linking Open Data initiative in particular encourage institutions to publish, share and interlink their data. This has considerable potential for libraries, which can complement their data by linking it to other, external data sources. This paper details the first linked open data service of the German National Library. The focus is on the challenges met during the inception of this service. Extrapolating from our experiences, the paper further discusses the German National Library's perspective on the future of library data exchange and the potential for the creation of globally interlinked library data. We outline how this process can be facilitated and how new services can be offered based on these growing metadata collections.

Content

Vortrag im Rahmen der Session 93. Cataloguing der WORLD LIBRARY AND INFORMATION CONGRESS: 76TH IFLA GENERAL CONFERENCE AND ASSEMBLY, 10-15 August 2010, Gothenburg, Sweden - 149. Information Technology, Cataloguing, Classification and Indexing with Knowledge Management

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Web 2.0

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Abstract

I need to measure semantic similarity between CSO ontology concepts, depending on Ontology structure (concept path, depth, least common subsumer (LCS) ...). CSO (Computer Science Ontology) is a large-scale ontology of research areas. A concepts in CSO may have multiple parents/super concepts (i.e. a concept may be a child of many other concepts), e.g. : (world wide web) is parent of (semantic web) (semantics) is parent of (semantic web) I found some measures that meet my needs, but the papers proposing these measures are not cited, so i got hesitated. I also found a measure that depends on weighted edges, but multiple inheritance (super concepts) is not considered..

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Abstract

This article explores the need for libraries to algorithmically access and manipulate the world's largest API: the Internet. The billions of pages on the 'Internet API' (HTTP, HTML, CSS, XPath, DOM, etc.) are easily accessible and manipulable. Libraries can assist in creating meaning through the datafication of information on the world wide web. Because most information is created for human consumption, some programming is required for automated extraction. Python is an easy-to-learn programming language with extensive packages and community support for web page automation. Four packages (Urllib, Selenium, BeautifulSoup, Scrapy) in Python can automate almost any web page for all sized projects. An example warrant data project is explained to illustrate how well Python packages can manipulate web pages to create meaning through assembling custom datasets.

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Abstract

In this paper, I have traced a series of evolutionary adaptations of FOL motivated entirely by its use by knowledge engineers to represent and share information on the Web culminating in the development of Common Logic. While the primary goal in this paper has been to document this evolution, it is arguable, I think that CL's syntactic and semantic egalitarianism better realizes the goal "topic neutrality" that a logic should ideally exemplify - understood, at least in part, as the idea that logic should as far as possible not itself embody any metaphysical presuppositions. Instead of retaining the traditional metaphysical divisions of FOL that reflect its Fregean origins, CL begins as it were with a single, metaphysically homogeneous domain in which, potentially, anything can play the traditional roles of object, property, relation, and function. Note that the effect of this is not to destroy traditional metaphysical divisions. Rather, it simply to refrain from building those divisions explicitly into one's logic; instead, such divisions are left to the user to introduce and enforce axiomatically in an explicit metaphysical theory.

Theme

Semantic Web

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Abstract

Am Hochschulbibliothekszentrum des Landes Nordrhein-Westfalen (hbz) wird seit Anfang 2014 nach Vorgaben und unter Begutachtung der Universitäts- und Landesbibliotheken in Düsseldorf, Münster und Bonn ein neuer Webauftritt für die Landesbibliographie Nordrhein-Westfalens, die Nordrhein-Westfälische Bibliographie (NWBib) entwickelt. Die Entwicklung basiert auf der Web-Schnittstelle des Linked-Open-Data-Dienst lobid und wird vollständig mit Open-Source-Software entwickelt. Aus der Perspektive des Entwicklungsteams am hbz beschreibt der Artikel Kontext und Durchführung des Projekts. Der Beitrag skizziert die historische Entwicklung der NWBib mit Fokus auf die Beziehung der Bibliographie zum World Wide Web (WWW), erläutert die Voraussetzungen für die Neuentwicklung sowie die Leitlinien des Entwicklungsprozesses, gibt einen Überblick über die Nutzung des neuen Webauftritts und die zur Umsetzung verwendete Technologie. Abgeschlossen wir der Artikel mit Lessons-Learned und einem Ausblick auf weitere Entwicklungen.

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Abstract

Das World Wide Web hat den Informations- austausch grundlegend verändert. Auch Archive, Bibliotheken und Museen stellen ihre Information ins WWW. Wir haben oft nur eigene Datensilos. Die Zukunft ist aber eher ein organisationsübergreifendes Netzwerk. Durch Linked Data können wir Information netzwerkartig wiederverwenden. Das Konzept basiert auf vier einfachen Prinzipen: - Use URIs as names for things - Use HTTP URIs so that people can look up those names. - When someone looks up a URI, provide useful information, using the standards (RDF*, SPARQL) - Include links to other URIs. so that they can discover more things.

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Content

Vortrag, "Semantics, Analytics, Visualisation: Enhancing Scholarly Data Workshop co-located with the 25th International World Wide Web Conference April 11, 2016 - Montreal, Canada", Montreal 2016.

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Content

Vortrag, "Semantics, Analytics, Visualisation: Enhancing Scholarly Data Workshop co-located with the 25th International World Wide Web Conference April 11, 2016 - Montreal, Canada", Montreal 2016.

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Content

"This week, Berners-Lee will launch Inrupt ( https://www.password-online.de/?email_id=571&user_id=1045&urlpassed=aHR0cHM6Ly93d3cuaW5ydXB0LmNvbQ&controller=stats&action=analyse&wysija-page=1&wysijap=subscriptions ), a startup that he has been building, in stealth mode, for the past nine months. For years now, Berners-Lee and other internet activists have been dreaming of a digital utopia where individuals control their own data and the internet remains free and open. But for Berners-Lee, the time for dreaming is over. "We have to do it now," he says, displaying an intensity and urgency that is uncharacteristic for this soft-spoken academic. "It's a historical moment." If all goes as planned, Inrupt will be to Solid what Netscape once was for many first-time users of the web: an easy way in. . On his screen, there is a simple-looking web page with tabs across the top: Tim's to-do list, his calendar, chats, address book. He built this app-one of the first on Solid for his personal use. It is simple, spare. In fact, it's so plain that, at first glance, it's hard to see its significance. But to Berners-Lee, this is where the revolution begins. The app, using Solid's decentralized technology, allows Berners-Lee to access all of his data seamlessly-his calendar, his music library, videos, chat, research. It's like a mashup of Google Drive, Microsoft Outlook, Slack, Spotify, and WhatsApp. The difference here is that, on Solid, all the information is under his control. In: Exclusive: Tim Berners-Lee tells us his radical new plan to upend the World Wide Web ( https://www.password-online.de/?email_id=571&user_id=1045&urlpassed=aHR0cHM6Ly93d3cuZmFzdGNvbXBhbnkuY29tLzkwMjQzOTM2L2V4Y2x1c2l2ZS10aW0tYmVybmVycy1sZWUtdGVsbHMtdXMtaGlzLXJhZGljYWwtbmV3LXBsYW4tdG8tdXBlbmQtdGhlLXdvcmxkLXdpZGUtd2Vi&controller=stats&action=analyse&wysija-page=1&wysijap=subscriptions ), in: https://www.fastcompany.com/90243936/exclusive-tim-berners-lee-tells-us-his-radical-new-plan-to-upend-the-world-wide-web ( https://www.password-online.de/?email_id=571&user_id=1045&urlpassed=aHR0cHM6Ly93d3cuZmFzdGNvbXBhbnkuY29tLzkwMjQzOTM2L2V4Y2x1c2l2ZS10aW0tYmVybmVycy1sZWUtdGVsbHMtdXMtaGlzLXJhZGljYWwtbmV3LXBsYW4tdG8tdXBlbmQtdGhlLXdvcmxkLXdpZGUtd2Vi&controller=stats&action=analyse&wysija-page=1&wysijap=subscriptions)."

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Abstract

We present the DOCMA method (DOCument and Model for Action) focused to Socio-Semantic web applications in large communities of interest. DOCMA is dedicated to end-users without any knowledge in Information Science. Community Members can elicit, structure and index shared business items emerging from their inquiry (such as projects, actors, products, geographically situated objects of interest.). We apply DOCMA to an experiment in the field of Sustainable Development: the Cartodd-Map21 collaborative Web portal.

Theme

Semantic Web

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Abstract

This issue of Jlis.it is focused on RDA, Resource Description and Access. In light of increasing international acceptance of this new cataloging content standard, the editors of Jlis.it wish to capture the background of how RDA came to be and the implications of its implementation at this time. This special issue offers a wide overview on the new guidelines from their making to their spreading around the world.

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Abstract

This paper reports on the second part of an initiative of the authors on researching classification systems with the conceptual model defined by the Functional Requirements for Subject Authority Data (FRSAD) final report. In an earlier study, the authors explored whether the FRSAD conceptual model could be extended beyond subject authority data to model classification data. The focus of the current study is to determine if classification data modeled using FRSAD can be used to solve real-world discovery problems in multicultural and multilingual contexts. The paper discusses the relationships between entities (same type or different types) in the context of classification systems that involve multiple translations and /or multicultural implementations. Results of two case studies are presented in detail: (a) two instances of the DDC (DDC 22 in English, and the Swedish-English mixed translation of DDC 22), and (b) Chinese Library Classification. The use cases of conceptual models in practice are also discussed.

Source

Beyond libraries - subject metadata in the digital environment and semantic web. IFLA Satellite Post-Conference, 17-18 August 2012, Tallinn

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Theme

Semantic Web

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Abstract

The Semantic Web and ontologies can help archaeologists combine and share data, making it more open and useful. Archaeologists create diverse types of data, using a wide variety of technologies and methodologies. Like all research domains, these data are increasingly digital. The creation of data that are now openly and persistently available from disparate sources has also inspired efforts to bring archaeological resources together and make them more interoperable. This allows functionality such as federated cross-search across different datasets, and the mapping of heterogeneous data to authoritative structures to build a single data source. Ontologies provide the structure and relationships for Semantic Web data, and have been developed for use in cultural heritage applications generally, and archaeology specifically. A variety of online resources for archaeology now incorporate Semantic Web principles and technologies.

Theme

Semantic Web

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Abstract

After the launch of the World Wide Web, it became clear that searching documentson the Web would not be trivial. Well-known engines to search the web, like Google, focus on search in web documents using keywords. The documents are structured and indexed to ensure keywords match documents as accurately as possible. However, searching by keywords does not always suice. It is oen the case that users do not know exactly how to formulate the search query or which keywords guarantee retrieving the most relevant documents. Besides that, it occurs that users rather want to browse information than looking up something specific. It turned out that there is need for systems that enable more interactivity and facilitate the gradual refinement of search queries to explore the Web. Users expect more from the Web because the short keyword-based queries they pose during search, do not suffice for all cases. On top of that, the Web is changing structurally. The Web comprises, apart from a collection of documents, more and more linked data, pieces of information structured so they can be processed by machines. The consequently applied semantics allow users to exactly indicate machines their search intentions. This is made possible by describing data following controlled vocabularies, concept lists composed by experts, published uniquely identifiable on the Web. Even so, it is still not trivial to explore data on the Web. There is a large variety of vocabularies and various data sources use different terms to identify the same concepts.
This PhD-thesis describes how to effectively explore linked data on the Web. The main focus is on scenarios where users want to discover relationships between resources rather than finding out more about something specific. Searching for a specific document or piece of information fits in the theoretical framework of information retrieval and is associated with exploratory search. Exploratory search goes beyond 'looking up something' when users are seeking more detailed understanding, further investigation or navigation of the initial search results. The ideas behind exploratory search and querying linked data merge when it comes to the way knowledge is represented and indexed by machines - how data is structured and stored for optimal searchability. Queries and information should be aligned to facilitate that searches also reveal connections between results. This implies that they take into account the same semantic entities, relevant at that moment. To realize this, we research three techniques that are evaluated one by one in an experimental set-up to assess how well they succeed in their goals. In the end, the techniques are applied to a practical use case that focuses on forming a bridge between the Web and the use of digital libraries in scientific research. Our first technique focuses on the interactive visualization of search results. Linked data resources can be brought in relation with each other at will. This leads to complex and diverse graphs structures. Our technique facilitates navigation and supports a workflow starting from a broad overview on the data and allows narrowing down until the desired level of detail to then broaden again. To validate the flow, two visualizations where implemented and presented to test-users. The users judged the usability of the visualizations, how the visualizations fit in the workflow and to which degree their features seemed useful for the exploration of linked data.
The ideas behind exploratory search and querying linked data merge when it comes to the way knowledge is represented and indexed by machines - how data is structured and stored for optimal searchability. eries and information should be aligned to facilitate that searches also reveal connections between results. This implies that they take into account the same semantic entities, relevant at that moment. To realize this, we research three techniques that are evaluated one by one in an experimental set-up to assess how well they succeed in their goals. In the end, the techniques are applied to a practical use case that focuses on forming a bridge between the Web and the use of digital libraries in scientific research.

Theme

Semantic Web

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Abstract

Mathematics is a ubiquitous foundation of science, technology, and engineering. Specific areas, such as numeric and symbolic computation or logics, enjoy considerable software support. Working mathematicians have recently started to adopt Web 2.0 environment, such as blogs and wikis, but these systems lack machine support for knowledge organization and reuse, and they are disconnected from tools such as computer algebra systems or interactive proof assistants.We argue that such scenarios will benefit from Semantic Web technology. Conversely, mathematics is still underrepresented on the Web of [Linked] Data. There are mathematics-related Linked Data, for example statistical government data or scientific publication databases, but their mathematical semantics has not yet been modeled. We argue that the services for the Web of Data will benefit from a deeper representation of mathematical knowledge. Mathematical knowledge comprises logical and functional structures - formulæ, statements, and theories -, a mixture of rigorous natural language and symbolic notation in documents, application-specific metadata, and discussions about conceptualizations, formalizations, proofs, and (counter-)examples. Our review of approaches to representing these structures covers ontologies for mathematical problems, proofs, interlinked scientific publications, scientific discourse, as well as mathematical metadata vocabularies and domain knowledge from pure and applied mathematics. Many fields of mathematics have not yet been implemented as proper Semantic Web ontologies; however, we show that MathML and OpenMath, the standard XML-based exchange languages for mathematical knowledge, can be fully integrated with RDF representations in order to contribute existing mathematical knowledge to theWeb of Data. We conclude with a roadmap for getting the mathematical Web of Data started: what datasets to publish, how to interlink them, and how to take advantage of these new connections.

Content

Vgl.: http://www.semantic-web-journal.net/content/ontologies-and-languages-representing-mathematical-knowledge-semantic-web http://www.semantic-web-journal.net/sites/default/files/swj122_2.pdf.

Source

Semantic Web journal. 2(2012), no.x