Automatisierungstechnik
Organization Name
Automatisierungstechnik
Director
Parent Org Unit
Status
Active Organization Unit
Website/URL
Results 21-40 of 159 (Search time: 0.002 seconds).
| Issue Date | Title | Author(s) | |||
|---|---|---|---|---|---|
| 21 | 2015 | Structure and classification of unified energy agents as a base for the systematic development of future energy grids | Derksen, Christian; Linnenberg, Tobias; Unland, Rainer; Fay, Alexander | ||
| 22 | 2017 | Steuerungsengineering für Prozessmodule: Standardkonforme Modulbeschreibung automatisch erstellen | Hörnicke, Mario; Knohl, Torsten; Bernshausen, Jens; Bloch, Claus Henry; Hahn, Anna; Hensel, Stephan; Haller, Axel; Fay, Alexander ; Urbas, Leon | ||
| 23 | 2018 | Step-based evolution support among networked production automation systems | Haubeck, Christopher; Bornholdt, Heiko; Lamersdorf, Wilfried; Chakraborty, Abhishek; Fay, Alexander | ||
| 24 | 1-Jan-2018 | State-based control of process services within modular process plants | Bloch, Claus Henry; Hensel, Stephan; Hoernicke, Mario; Stark, Katharina; Menschner, Anna; Fay, Alexander ; Urbas, Leon; Knohl, Torsten; Bernshausen, Jens | ||
| 25 | 2015 | Speed-Standardisierung am Beispiel der PLT-Stelle - Datenaustausch mit dem Namur-Datencontainer | Schüller, Andreas; Scholz, André; Tauchnitz, Thomas; Drath, Rainer; Scherwietes, Thomas | ||
| 26 | 2023 | Situation-aware Communication Topologies in Heterogeneous Platooning Scenarios | Miekautsch, Fritz; Seeland, Felix; Horn, Joachim ; Fay, Alexander | ||
| 27 | 2012 | Simulationsbasierte Steuerungsfunktionstests – Generierung von Anlagenmodellen aus CAE-Planungsdaten | Barth, Mike; Fay, Alexander ; Greifeneder, Jürgen; Weber, Peter | ||
| 28 | 2012 | Simulationsbasierte Steuerungsfunktionstest - Generierung von Modellen aus PLS-Engineering-Systemen | Greifeneder, Jürgen; Weber, Peter; Barth, Mike; Fay, Alexander | ||
| 29 | 1-Jan-2018 | Signal-based Context Comparative Analysis for Identification of Similar Manufacturing Modules | Chakraborty, Abhishek; Haubeck, Christopher; Fay, Alexander ; Lamersdorf, Winfried | ||
| 30 | 2018 | Sicherstellung von Interoperabilität – Test von Agentensystemen mit Interoperabilitätsregeln | Fay, Alexander ; Wassermann, Erik | ||
| 31 | 2018 | Sicherstellung von Interoperabilität | Wassermann, Erik; Fay, Alexander | ||
| 32 | 2015 | Sicherheitslücken automatisch erkennen | Tebbe, Christopher; Glawe, Matthias; Dittgen, Josha; Niemann, Karl-Heinz; Fay, Alexander | ||
| 33 | 2018 | Semi-automatic generation of a virtual representation of a production cell: Combining 3D CAD and VDI-2860 behavior models by means of AutomationML | Thongnuch, Suthida; Fay, Alexander ; Drath, Rainer | ||
| 34 | 2017 | Semantische Inhalte für Industrie 4.0 | Scholz, André; Hildebrandt, Constantin; Fay, Alexander ; Schröder, Tizian; Dubovy, Martin; Eck, Christian; Wiegand, Ralf; Diedrich, Christian; Heidel, Roland | ||
| 35 | 2018 | Semantische Ermittlung kinematischer Fähigkeiten aus Anlagenplanungsdaten | Glawe, Matthias; Hildebrandt, Constantin; Peschke, Jörn; Fay, Alexander | ||
| 36 | 2019 | (Self-)adaptiveness for manufacturing systems: challenges and approaches | Caesar, Birte; Grigoleit, Florian; Unverdorben, Stepan | ||
| 37 | 2022 | Security by Design für Automatisierungssysteme - Teil 1 | Fluchs, Sarah; Tastan, Emre; Mertens, Martin; Ritter, Jochen; Horch, Alexander; Drath, Rainer; Fay, Alexander | ||
| 38 | 2022 | Security by Design Decisions für Automatisierungssysteme – Teil 2 | Fluchs, Sarah; Tastan, Emre; Mertens, Martin; Ritter, Jochen; Horch, Alexander; Drath, Rainer; Fay, Alexander | ||
| 39 | 2020 | Robuste und präzise Lokalisierung von Deflagrationen mithilfe eines Multikamerasystems | Krooß, Jakob; Kümmerlen, Felix; Fay, Alexander | ||
| 40 | 2022 | Roadmap to semi-automatic generation of digital twins for brownfield process plants | Sierla, Seppo; Azangoo, Mohammad; Rainio, Kari; Papakonstantinou, Nikolaos; Fay, Alexander ; Honkamaa, Petri; Vyatkin, Valeriy |
OrgUnit's Researchers publications
(Dept/Workgroup Publication)
Results 1-20 of 448 (Search time: 0.004 seconds).
| Issue Date | Title | Author(s) | |||
|---|---|---|---|---|---|
| 1 | 2019 | A Capability Model for the Adaptation of Manufacturing Systems | Hoang, Xuan-Luu; Fay, Alexander | ||
| 2 | 2013 | A combined analysis of plant connectivity and alarm logs to reduce the number of alerts in an automation system | Schleburg, Markus; Christiansen, Lars; Thornhill, Nina Frances; Fay, Alexander | ||
| 3 | 2012 | A discrete-event modeling of ARGESIM Benchmark C20 Complex Production System using Flexsim simulation software | Schulz, Eike; Paul, Josef; Schreiber, Sebastian; Fay, Alexander | ||
| 4 | 1-Sep-2020 | A Formal Capability and Skill Model for Use in Plug and Produce Scenarios | Köcher, Aljosha ; Hildebrandt, Constantin; Vieira da Silva, Luis Miguel ; Fay, Alexander | ||
| 5 | 2017 | A Knowledge Carrying Service-Component Architecture for Smart Cyber Physical Systems | Haubeck, Christopher; Lamersdorf, Wilfried; Fay, Alexander | ||
| 6 | 2022 | A Mapping Approach to Convert MTPs into a Capability and Skill Ontology | Köcher, Aljosha; Beers, Lasse ; Fay, Alexander | ||
| 7 | 2019 | A meta-model based environment for GRAFCET specifications | Julius, Robert; Trenner, Thomas; Fay, Alexander ; Neidig, Jörg; Hoang, Xuan-Luu | ||
| 8 | 2021 | A Method to Automatically Generate Semantic Skill Models from PLC Code | Köcher, Aljosha ; Jeleniewski, Tom Robin ; Fay, Alexander | ||
| 9 | 2013 | A method to evaluate the openness of automation tools for increased interoperability | Fay, Alexander ; Biffl, Stefan; Winkler, Dietmar | ||
| 10 | 2018 | A microservice-based architecture approach for the automation of modular process plants | Bloch, Claus Henry; Fay, Alexander ; Knohl, Torsten; Hoernicke, Mario; Bernshausen, Jens; Hensel, Stephan; Menschner, Anna; Urbas, Leon; Hahn, Anna; Bloch, Henry | ||
| 11 | 2019 | A model-driven approach for transforming GRAFCET specifications into PLC code | Julius, Robert; Trenner, Thomas; Neidig, Jörg; Fay, Alexander | ||
| 12 | 21-Aug-2017 | A practical simulation model generation for virtual commissioning | Thongnuch, Suthida; Fay, Alexander | ||
| 13 | 31-Dec-2021 | A Research Agenda for AI Planning in the Field of Flexible Production Systems | Köcher, Aljosha ; Heesch, Rene ; Widulle, Niklas ; Nordhausen, Anna; Putzke, Julian ; Windmann, Alexander ; Niggemann, Oliver | ||
| 14 | 2019 | A Seamless Description Approach for Engineering – Methods Illustrated for Industrie 4.0 Scenarios | Wehrstedt, Jan Christoph; Groos, Benedikt; Klein, Wolfram; Malik, Vincent; Rothbauer, Stefan; Zeller, Marc; Weiß, S.; Böhm, Birthe; Brings, Jennifer; Daun, Marian; Caesar, Birte; Fay, Alexander ; Hung Koo, Chee; Vorderer, Marian | ||
| 15 | 2022 | A simulation-based method for the correction of positioning errors in robot-guided fused deposition modeling | Höfer, Raphael ; Mewes, Gian; Fay, Alexander | ||
| 16 | 2018 | A systematic approach for supporting the adaptation process of discrete manufacturing machines | Marks, Philipp; Hoang, Xuan Luu; Weyrich, Michael; Fay, Alexander | ||
| 17 | 2020 | A systematic approach how to build, maintain and use an integrated plant model | Löwen, Ulrich; Sakka, Feras El; Schertl, Andreas; Fay, Alexander | ||
| 18 | 2020 | A Toolchain for the Development of Agent-Based Smart Grid Control Solutions | Törsleff, Sebastian; Derksen, Christian; Ludwig, Marcel; Linnenberg, Tobias; Wassermann, Erik; Loose, Nils; Fay, Alexander | ||
| 19 |  | 2022 | A Universal Approach to Command and Control Heterogeneous Autonomous Robots | Sieber, Christoph ; Vieira da Silva, Luis Miguel ; Fay, Alexander ; Brogt, Tobias; Strobel, Gero; Berkowitz, Stephan; Zembrot, Lukas | |
| 20 | 2017 | A workflow support system for the process and automationengineering of production plants | Ghobadi-Bigvand, Pouria; Fay, Alexander |