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Semantic Web services Interoperability for Geospatial decision making ( SWING) ~ short project presentation ~. Project Data. Call number: FP6 Information Society Technology Contract number: FP6-26514 Funding institution: European Commission Start date – end date: March 2006 – March 2009

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Project Data

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  1. Semantic Web services Interoperability for Geospatial decision making (SWING)~ short project presentation ~

  2. Project Data • Call number: FP6 Information Society Technology • Contract number: FP6-26514 • Funding institution: European Commission • Start date – end date: March 2006 – March 2009 • Duration: 36 months • Budget: 4.3 M€ / 2.85 M€ • Number of participants: 7 • Coordinator contact info: SINTEF - STIFTELSEN FOR INDUSTRIELL OG TEKNISK FORSKNING VED NORGES TEKNISKE HOEGSKOLE, established in STRINDVEIEN 4 , 7034 TRONDHEIM -NORWAY

  3. Main Objectives • To develop an open, easy-to-use Semantic Web Service framework of suitable ontologies and inference tools for annotation, discovery, composition, and invocation of geospatial web services. • To evaluate the appropriateness of this framework by developing a geospatial decision-making application that can dynamically find and provide interoperable semantic web services.

  4. Scientific and technological sub-goals to achieve the main objectives • To capture the semantic requirements of geospatial services and geospatial decision-making application scenarios by developing relevant ontologies. • To develop a tool for semantic annotation of geospatial web services based on semi-structured description, natural language texts and geospatial data. • To adapt existing semantic web service technology (WSMO/WSML/WSMX) to provide a semantic discovery and execution tool to facilitating discovery and invocation of semantically described geospatial web services. • To provide an open, easy-to-use development environment that hides the complexity and integrates the semantic annotation, the semantic discovery and execution tool. • To innovate and integrate semantic web service technology in existing web catalogues for the purpose of enhancing the functionality and improving the hit-rate in service discovery. • To develop a web-based geospatial decision-support prototype to evaluate the appropriateness of the proposed framework and to show dynamic service composition in practice. This prototype will have the potential of being further developed and turned into a management and assessment system for natural resources.

  5. Impact • The impact of the SWING framework will benefit several major user groups, i.e. geospatial decision makers, data and service providers, application developers and the research community: • Geospatial decision makers will be able to use the dedicated application and hence decrease the time used to discover and utilise relevant data. Citizens are allowed to access the information from the decision making process and can thus better understand the rationale behind the decisions. • Data and service providers will be able to use the catalogue component to annotate their services. • Application developers will be able to use the development environment to create semantically annotated composed web services more effectively than before. • The research community will be able to utilise the experience gained in the project and to directly experiment with, reuse or extend the core open source components, i.e. the ontologies, annotation engine, execution environment and the development environment.

  6. Partners • SINTEF - Stiftelsen for industriell og teknisk forskning ved Norges Tekniske Høgskole • Leopold Franzens Universität Innsbruck • Westfälische Wilhelms-Universität Münster • Ionic Software SA • BRGM • Institut Jozef Stefan • National University of Ireland Galway

  7. Work Packages (1) • WP1 - The Application prototype will show dynamic discovery, composition and invocation of geospatial web services within the domain of sustainable exploitation of natural resources. Parts of the application prototype will be developed using the Development Environment. At run-time, the application prototype will utilise the Semantic Discovery and Executioncomponent. • WP2 - The Semantic Discovery & Execution component provides the basic Semantic Web Service infrastructure. It will be based on technology developed in the DIP project, adapted to the geospatial domain. It consists of a repository of semantically described web services and a set of inference tools for discovery and dynamic invocation of the services. • WP3 - The Geospatial Ontology component contains a repository of ontologies used by the Semantic Annotation and the Semantic Discovery & Execution components. The ontologies are central both for semi-automatic annotation and for discovery and composition of geospatial web services within the domain of natural-resource decision-support tasks.

  8. Work Packages (2) • WP4 - The Semantic Annotation component utilises information acquisition technology to analyse the semi-structured data descriptions of existing geospatial web services, in order to generate Semantic Web Service descriptions. These may be registered in the Semantic Discovery & Execution component in order to extend the number of semantically described web services. • WP5 - The Catalogue provides a standard web service registry interface storing entries to classical geospatial and non-spatial services. In addition, it utilises the underlying components to provide semantically enhanced discovery functionality. • WP6 - The Development Environment component is based on IBM's Open Source Eclipse Development Environment. It consists of a number of plug-ins that integrates and hides the complexity of the other components. Application and service developers can use the Development Environment to discover both semantic and non-semantic services, to semantically describe their services and to compose multiple services.

  9. Work Packages and key parteners

  10. The components in the SWING Framework

  11. Exploitation and dissemination plans • Papers – Public research results from the project will be published in conferences and international journals and magazines. • Web site – We will create and maintain a web-site for the projects containing the public results and news from the project. • Open source – We will provide an open source implementation of the generic parts of the middleware, and give access to this through the web-site. • Workshops – We will arrange 2 workshops at relevant international conferences to disseminate the SWING results and gather interest from the research community. • Training – The university partners will enrich their courses with results from the project. The open source implementation of the generic parts of the middleware will be used in advanced teaching activities. • Show case – We will provide a show case (downloadable software and presentations). • Book – We will document the result of the project in a text book aimed at the research, industry and education sectors.

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