Lee, Sungin
(Biomedical Knowledge Engineering Laboratory, Seoul National University, Republic of Korea)
,
Jeong, Senator
(Biomedical Knowledge Engineering Laboratory, Seoul National University, Republic of Korea)
,
Kim, Hong-Gee
(Biomedical Knowledge Engineering Laboratory, Seoul National University, Republic of Korea)
,
Jung, Hanmin
(Korea Institute of Science and Technology Information, Republic of Korea)
,
Lee, Mikyoung
(Korea Institute of Science and Technology Information, Republic of Korea)
,
Song, Seungjae
(Biomedical Knowledge Engineering Laboratory, Seoul National University, Republic of Korea)
,
You, Beom-Jong
(Korea Institute of Science and Technology Information, Republic of Korea)
Research highlights► The ontology-based service languages, such as OWL-S, have been introduced. However, the use of these languages still leaves much of composition process manual. We present an ontology-based web service composition system called OntoPipeliner. It employs a novel way of uti...
Research highlights► The ontology-based service languages, such as OWL-S, have been introduced. However, the use of these languages still leaves much of composition process manual. We present an ontology-based web service composition system called OntoPipeliner. It employs a novel way of utilizing Web services based on ontologies. Furthermore, it provides the ontology-guided constraints for guiding the best pipeline. AbstractThe Web is a distributed environment rich with Web services going through continual metamorphosis; thus, sustaining semantic stability of service composition has become a major challenge. Automatic service composition – enabled both by the use of ontologies that describe service domains and by user-specified constraints bound to the ontologies – provides us candidate service pipelines at composition design time. The ontology-based languages for semantically describing web services, such as OWL-S, have been widely used. Though rich and comprehensive in their expressiveness, the use of these languages still leaves much of composition process manual. In this work, we present an ontology-based semantic web service composition system called OntoPipeliner. It employs a novel way of utilizing characteristics of Web services that reflect the classes and properties of domain ontologies and provides the ontology-guided constraints for automatic composition of services, in order to guide the user toward the best pipeline that meets the user requirements.
Research highlights► The ontology-based service languages, such as OWL-S, have been introduced. However, the use of these languages still leaves much of composition process manual. We present an ontology-based web service composition system called OntoPipeliner. It employs a novel way of utilizing Web services based on ontologies. Furthermore, it provides the ontology-guided constraints for guiding the best pipeline. AbstractThe Web is a distributed environment rich with Web services going through continual metamorphosis; thus, sustaining semantic stability of service composition has become a major challenge. Automatic service composition – enabled both by the use of ontologies that describe service domains and by user-specified constraints bound to the ontologies – provides us candidate service pipelines at composition design time. The ontology-based languages for semantically describing web services, such as OWL-S, have been widely used. Though rich and comprehensive in their expressiveness, the use of these languages still leaves much of composition process manual. In this work, we present an ontology-based semantic web service composition system called OntoPipeliner. It employs a novel way of utilizing characteristics of Web services that reflect the classes and properties of domain ontologies and provides the ontology-guided constraints for automatic composition of services, in order to guide the user toward the best pipeline that meets the user requirements.
Towards patterns of web services composition Benatallah 2003
Distributed and Parallel Databases Benatallah 17 1 5 2005 10.1023/B:DAPD.0000045366.15607.67 Facilitating the rapid development and scalable orchestration of composite web services
Christensen, E., Curbera, F., Meredith, G., & Weerawarana, S. (2001). Web services description language (WSDL) 1.1.
de Bruijn, J., Bussler, C., Domingue, J., Fensel, D., Hepp, M., Keller, U., et al. (2005). Web service modeling ontology (WSMO). W3C member submission 3.
Expert Systems with Applications Karakoc 36 8 11021 2009 10.1016/j.eswa.2009.02.098 Composing semantic web services under constraints
Expert Systems with Applications Lee 33 1 221 2007 10.1016/j.eswa.2006.04.024 Composition of executable business process models by combining business rules and process flows
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