Adaptive and Dynamic Service Composition in eFlow
CAiSE '00 Proceedings of the 12th International Conference on Advanced Information Systems Engineering
Modeling and Composing Service-Based nd Reference Process-Based Multi-enterprise Processes
CAiSE '00 Proceedings of the 12th International Conference on Advanced Information Systems Engineering
Meteor-s web service annotation framework
Proceedings of the 13th international conference on World Wide Web
Logic-based Web Services Composition: From Service Description to Process Model
ICWS '04 Proceedings of the IEEE International Conference on Web Services
A survey of public web services
Proceedings of the 13th international World Wide Web conference on Alternate track papers & posters
Web Services Roadmap: The Semantic Web Perspective
AICT-ICIW '06 Proceedings of the Advanced Int'l Conference on Telecommunications and Int'l Conference on Internet and Web Applications and Services
Composition of Semantic Web services using Linear Logic theorem proving
Information Systems
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Automated Web service composition and automated Web service annotation could be seen as complimentary methodologies While automated annotation allows to extract Web service semantics from existing WSDL documents, automated composition uses this semantics for integrating applications Therefore applicability of both methodologies is essential for increasing the productivity of information system integration Although several papers have proposed methods for automated annotation, there is a lack of studies providing analysis of the general structure of Web services We argue that having an overview of general Web services structures would greatly improve design of new annotation methods At the same time, progress in automated composition has resulted in several methods for automating Web services orchestration In this paper we propose application of automated composition also for analysing Web services domain We identify and analyse some general Web services properties and provide their interpretation in an industrial context.