0000000000199148

AUTHOR

Steffen Staab

showing 3 related works from this author

On marrying ontological and metamodeling technical spaces

2007

In software engineering, the use of models and metamodeling approaches (e.g., MDA with MOF/UML) for purposes such as software design or software validation is an established practice. Ontologies constitute domain models formalized using expressive logic languages for class definitions and rules. Hence, when seen from an abstract point of view, the two paradigms and their various technological spaces seem closely related. However, in the state-of-the-art research and practice the two technologies are just beginning to converge and the relationship between the two is still under exploration. In this paper, we give an outline of current ontology technologies, such as the Semantic Web standards…

business.industryComputer sciencecomputer.internet_protocolWeb Ontology LanguageOntology (information science)OWL-SMetamodelingUnified Modeling LanguageSystems engineeringDomain engineeringIDEF5Model-driven architectureSoftware engineeringbusinesscomputercomputer.programming_language
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Efficient Graph Models for Retrieving Top-k News Feeds from Ego Networks

2012

A key challenge of web platforms like social networking sites and services for news feed aggregation is the efficient and targeted distribution of new content items to users. This can be formulated as the problem of retrieving the top-k news items out of the d-degree ego network of each given user, where the set of all users producing feeds is of size n, with n >> d >> k and typically k

Ego networksInformation retrievalGraph databaseTheoretical computer scienceSocial networkComputer sciencebusiness.industryScalabilityGraph (abstract data type)Graph theorybusinesscomputer.software_genrecomputer2012 International Conference on Privacy, Security, Risk and Trust and 2012 International Confernece on Social Computing
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Model Driven Specification of Ontology Translations

2008

The alignment of different ontologies requires the specification, representation and execution of translation rules. The rules need to integrate translations at the lexical, the syntactic and the semantic layer requiring semantic reasoning as well as low-level specification of ad-hoc conversions of data. Existing formalisms for representing translation rules cannot cover the representation needs of these three layers in one model. We propose a metamodel-based representation of ontology alignments that integrate semantic translations using description logics and lower level translation specifications into one model of representation for ontology alignments.

Ontology Inference Layerbusiness.industryProgramming languageComputer scienceOntology-based data integrationProcess ontologySuggested Upper Merged Ontology02 engineering and technologyOntology (information science)computer.software_genreDescription logic020204 information systems0202 electrical engineering electronic engineering information engineeringUpper ontology020201 artificial intelligence & image processingArtificial intelligencebusinesscomputerOntology alignmentNatural language processingLecture Notes in Computer Science Conceptual Modeling - ER 2008
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