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Auflistung nach Autor:in "Strasser, Thomas"

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  • Konferenzbeitrag
    4DIAC – Ein Open Source Framework für verteilte industrielle Automatisierungs- und Steuerungssysteme
    (INFORMATIK 2010. Service Science – Neue Perspektiven für die Informatik. Band 1, 2010) Strasser, Thomas; Zoitl, Alois; Ebenhofer, Gerhard
    Dieser Beitrag gibt einen Überblick über das IEC 61499 Referenzmodell für verteilte Steuerungssysteme sowie über den aktuellen Stand der Open Source Initiative „4DIAC - Framework for Distributed Industrial Automation and Control“, welche es sich zum Ziel gesetzt hat, eine quellenoffene IEC 61499 Referenzimplementierung zur Verfügung zu stellen, die den Anforderungen Portabilität, Konfigurierbarkeit und Interoperabilität genügt. Die 4DIAC Open Source Initiative ist sowohl für akademische Forschung als auch für die Verwendung in industriellen Prototypen und Produkten gedacht, wobei durch die Kooperation von Forschung und Industrie eine gute Basis für die Anwendung von IEC 61499 Applikationen geschaffen werden soll. Der Beitrag befasst sich weiters noch mit ausgewählten Steuerungsbeispielen auf Basis von 4DIAC und schließt mit einem Ausblick über zukünftige Entwicklungen der 4DIAC Open Source Initiative.
  • Konferenzbeitrag
    Sharing Laboratory Infrastructures for Integrating more Energy from Renewable Sources to the Grid - The FP7 project DERri - Distributed Energy Resources Research Infrastructure
    (Innovations in Sharing Environmental Observations and Information, 2011) Mrakotsky, Elisabeth; Mayr, Christoph; Stifter, Matthias; Strasser, Thomas
    Fostering energy from distributed renewable sources is essential in order to reduce energy generation of fossil or nuclear provenance and smooth climate change. The quickly evolving performance and energy yields of renewable energy sources (RES) demand for the improvement of grid capabilities by means of ICT technologies, multifunctional power conversion devices and innovative control strategies. However, existing grids are limited for high penetration of decentralized power generation with fluctuating supplies from solar or wind energy. Therefore, the capacity and reliability of grids, and the operation and stability of the power system have to be proven by simulation and testing of new grid connected components with communication interface. The EU infrastructure project DERri (Distributed Energy Resources Research Infrastructures) [1], funded under FP7, allows users from research and industry temporary access and use of a network of 15 excellent laboratories across Europe to perform experimental investigations and compare and confirm results of their work. The paper gives an introduction on DERri background and network, it outlines the common findings and benefits in ICT research fields ”smart grids’ and ‘management, command and control of RES’ on shared use of infrastructures and informs about new calls for proposals to obtain trans-national access to laboratories under DERri. Furthermore, the interaction with another European activity, the project ‘Supporting Energy Efficiency in Smart GENeration Grids through ICT’ (SEESGEN-ICT), a thematic network funded under the CIP-ICT PSP by the European Commission, is highlighted.
  • Zeitschriftenartikel
    Towards a Semantic Driven Framework for Smart Grid Applications: Model-Driven Development Using CIM, IEC 61850 and IEC 61499
    (Informatik-Spektrum: Vol. 36, No. 1, 2013) Andrén, Filip; Stifter, Matthias; Strasser, Thomas
    Power and energy systems are on the verge of a profound change where Smart Grid solutions will enhance their efficiency and flexibility. Advanced ICT and control systems are key elements of the Smart Grid to enable efficient integration of a high amount of renewable energy resources which in turn are seen as key elements of the future energy system. The corresponding distribution grids have to become more flexible and adaptable as the current ones in order to cope with the upcoming high share of energy from distributed renewable sources.The complexity of Smart Grids requires to consider and imply many components when a new application is designed. However, a holistic ICT-based approach for modelling, designing and validating Smart Grid developments is missing today. The goal of this paper therefore is to discuss an advanced design approach and the corresponding information model, covering system, application, control and communication aspects of Smart Grids.