Semantic Web Take-Off in a European Industry Perspective

Semantic Web technology is being increasingly applied in a large spectrum of applications in which domain knowledge is conceptualized and formalized (e.g., by means of an ontology) in order to support diversified and automated knowledge processing (e.g., reasoning) performed by a machine. Moreover, through an optimal combination of (cognitive) human reasoning and (automated) machine processing (mimicking reasoning); it becomes possible for humans and machines to share more and more complementary tasks. The spectrum of applications is extremely large and to name a few: corporate portals and knowledge management, e-commerce, e-work, e-business, healthcare, e-government, natural language understanding and automated translation, information search, data and services integration, social networks and collaborative filtering, knowledge mining, business intelligence and so on. From a social and economic perspective, this emerging technology should contribute to growth in economic wealth, but it must also show clear cut value for everyday activities through technological transparency and efficiency. The penetration of Semantic Web technology in industry and in services is progressing slowly but accelerating as new success stories are reported. In this chapter we present ongoing work in the cross-fertilization between industry and academia. In particular, we present a collection of application fields and use cases from enterprises which are interested in the promises of Semantic Web technology.

[1]  Gio Wiederhold,et al.  Mediators in the architecture of future information systems , 1992, Computer.

[2]  Kent A. Spackman,et al.  Role grouping as an extension to the description logic of Ontylog, motivated by concept modeling in SNOMED , 2002, AMIA.

[3]  Alon Y. Halevy,et al.  Answering queries using views: A survey , 2001, The VLDB Journal.

[4]  Randolph A. Miller,et al.  Review Paper: Interface Terminologies: Facilitating Direct Entry of Clinical Data into Electronic Health Record Systems , 2006, J. Am. Medical Informatics Assoc..

[5]  Vipul Kashyap,et al.  Observer: an approach for query processing in global information systems based on interoperation across pre-existing ontologies , 1996, Proceedings First IFCIS International Conference on Cooperative Information Systems.

[6]  Jérôme Euzenat,et al.  Similarity-Based Ontology Alignment in OWL-Lite , 2004, ECAI.

[7]  K. Wiig Knowledge management: Where did it come from and where will it go? , 1997 .

[8]  Erhard Rahm,et al.  A survey of approaches to automatic schema matching , 2001, The VLDB Journal.

[9]  Stefanos Kollias,et al.  Multimedia Content and the Semantic Web: Standards, Methods and Tools , 2005 .

[10]  Paavo Kotinurmi,et al.  WSMX: A Semantic Service Oriented Middleware for B2B Integration , 2006, ICSOC.

[11]  Kurt Sandkuhl,et al.  Match-making based on semantic nets – The XML-based approach of BaSeWeP , 2002 .

[12]  Bernard Gibaud,et al.  Interoperability and Medical Communication Using "Patient Envelope"-Based Secure Messaging , 2003, MIE.

[13]  John Mylopoulos,et al.  Representing and querying data transformations , 2005, 21st International Conference on Data Engineering (ICDE'05).

[14]  Woojong Suh,et al.  Data Mining Using Qualitative Information on the Web , 2005 .

[15]  James R. Doran,et al.  Approaches to Building High Performance Web Applications: A Practical Look at Availability, Reliability, and Performance , 2007 .

[16]  Peishen Qi,et al.  Ontology Translation on the Semantic Web , 2003, J. Data Semant..

[17]  David Norheim AKSIO - Active knowledge management in the petroleum industry , 2006 .

[18]  Francesco M. Donini,et al.  A system for principled matchmaking in an electronic marketplace , 2003, WWW '03.

[19]  Joann J. Ordille,et al.  Data integration: the teenage years , 2006, VLDB.

[20]  Armin Haller,et al.  Semantic SOA to Promote Integration of Heterogeneous B2B Services , 2007, The 9th IEEE International Conference on E-Commerce Technology and The 4th IEEE International Conference on Enterprise Computing, E-Commerce and E-Services (CEC-EEE 2007).

[21]  Woojong Suh Web Engineering: Principles And Techniques , 2005 .

[22]  Jeff Z. Pan,et al.  Multimedia annotations on the semantic Web , 2006, IEEE Multimedia.

[23]  Johannes Heinecke,et al.  Intelligent Human Language Query Processing in Mkbeem , 2003, HCI.

[24]  Mario Piattini,et al.  Handbook of Research on Web Information Systems Quality , 2008 .

[25]  Jianwen Su,et al.  Tools for composite web services: a short overview , 2005, SGMD.

[26]  Nicola Guarino,et al.  OntoSeek: content-based access to the Web , 1999, IEEE Intell. Syst..

[27]  Ajantha Dahanayake,et al.  Web-enabled systems integration - practices and challenges , 2002 .

[28]  Lora Aroyo,et al.  The Semantic Web: Research and Applications , 2009, Lecture Notes in Computer Science.

[29]  Amit Goswami,et al.  MediaCaddy - Semantic Web Based On-Demand Content Navigation System for Entertainment , 2005, International Semantic Web Conference.

[30]  Tran Cao Son,et al.  Semantic Web Services , 2001, IEEE Intell. Syst..

[31]  Roberto Basili,et al.  Ontology-driven Information Retrieval in FF-Poirot , 2005, SWAP.

[32]  Stefanos Kollias,et al.  Multimedia Content and the Semantic Web , 2005, Multimedia Content and the Semantic Web.

[33]  Sikha Bagui,et al.  Modeling Service Data Objects (SDOs) to the Entity-Relationship (ER) Model , 2012, Int. J. Inf. Technol. Web Eng..

[34]  Steffen Staab,et al.  Introducing Context and Reasoning in Visual Content Analysis: An Ontology-Based Framework , 2008 .

[35]  Brian Detlor,et al.  Tips for Tracking Web Information Seeking Behavior , 2009 .

[36]  Deborah L. McGuinness,et al.  An Environment for Merging and Testing Large Ontologies , 2000, KR.

[37]  Fausto Giunchiglia,et al.  Web Explanations for Semantic Heterogeneity Discovery , 2005, ESWC.

[38]  J Hibbard Knowing what we know , 1997 .

[39]  Jos de Bruijn,et al.  Web Service Modeling Ontology , 2005, Appl. Ontology.

[40]  Diego Calvanese,et al.  Automatic Service Composition Based on Behavioral Descriptions , 2005, Int. J. Cooperative Inf. Syst..

[41]  Ghazi Alkhatib,et al.  Web Engineered Applications for Evolving Organizations : Emerging Knowledge , 2011 .

[42]  Hans Tompits,et al.  Reasoning Methods for Personalization on the Semantic Web , 2004 .

[43]  Moh’d A. Radaideh,et al.  Architecture of Reliable Web Applications Software , 2006 .

[44]  Diego Calvanese,et al.  Description Logics for Information Integration , 2002, Computational Logic: Logic Programming and Beyond.

[45]  Yong Yu,et al.  Conceptual Graph Matching for Semantic Search , 2002, ICCS.

[46]  Steffen Staab,et al.  Knowledge representation and semantic annotation of multimedia content , 2006 .

[47]  Tore Risch,et al.  Processing queries over RDF views of wrapped relational databases , 2004 .

[48]  Ming-Cheng Tsou Geographic Information Retrieval and Text Mining on Chinese Tourism Web Pages , 2010, Int. J. Inf. Technol. Web Eng..

[49]  Peter Brophy,et al.  Web Accessibility , 2007, Human–Computer Interaction Series.

[50]  Mohand-Said Hacid,et al.  On automating Web services discovery , 2003, The VLDB Journal.

[51]  Fausto Giunchiglia,et al.  S-Match: an Algorithm and an Implementation of Semantic Matching , 2004, ESWS.

[52]  Jaime Gómez,et al.  Tool Support for Model-driven Development of Web Applications , 2005, Int. J. Inf. Technol. Web Eng..

[53]  Jeff Z. Pan,et al.  A Fuzzy Description Logic for Multimedia Knowledge Representation , 2005 .

[54]  Dan Corbett,et al.  A Framework for Comparing the use of a Linguistic Ontology in an Application , 2000 .

[55]  Jérôme Euzenat,et al.  A Survey of Schema-Based Matching Approaches , 2005, J. Data Semant..

[56]  Marc Shapiro,et al.  Semantics-Based Reconciliation for Collaborative and Mobile Environments , 2003, OTM.

[57]  Amit P. Sheth,et al.  Semantic E-Workflow Composition , 2003, Journal of Intelligent Information Systems.

[58]  Tomas Vitvar,et al.  Dynamic Service Discovery Through Meta-interactions with Service Providers , 2007, ESWC.

[59]  Marco Pistore,et al.  Process-Level Composition of Executable Web Services: "On-the-fly" Versus "Once-for-all" Composition , 2005, ESWC.

[60]  Pankaj Kamthan A Framework for the Active Credibility Engineering of Web Applications , 2008, Int. J. Inf. Technol. Web Eng..

[61]  Richard Hull,et al.  Managing semantic heterogeneity in databases: a theoretical prospective , 1997, PODS.

[62]  J. Charlet,et al.  Interopérabilité en médecine : quand le contenu interroge le contenant et l'organisation , 2002 .

[63]  Fausto Giunchiglia,et al.  Semantic Matching: Algorithms and Implementation , 2007, J. Data Semant..

[64]  Anthony Faiola,et al.  The Role of Physical Affordances in Multifunctional Mobile Device Design , 2010, Int. J. Inf. Technol. Web Eng..

[65]  Pedro M. Domingos,et al.  iMAP: discovering complex semantic matches between database schemas , 2004, SIGMOD '04.

[66]  Paolo Traverso,et al.  Service-Oriented Computing: a Research Roadmap , 2008, Int. J. Cooperative Inf. Syst..

[67]  Mike Thelwall,et al.  Handbook of Research on Web Log Analysis , 2009, J. Assoc. Inf. Sci. Technol..

[68]  Steffen Staab,et al.  QOM - Quick Ontology Mapping , 2004, GI Jahrestagung.

[69]  Erhard Rahm,et al.  COMA - A System for Flexible Combination of Schema Matching Approaches , 2002, VLDB.

[70]  Marco Pistore,et al.  Automated Composition of Semantic Web Services into Executable Processes , 2004, SEMWEB.

[71]  James A. Hendler,et al.  The Semantic Web" in Scientific American , 2001 .

[72]  Kurt Sandkuhl,et al.  Match-Making based on Semantic Nets : The XML-based BaSeWeP Approach , 2002 .