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2020 – today
- 2024
[j89]Gianluca Manca
, Franz C. Kunze, Alexander Fay:
Addressing Uncertainty in Online Alarm Flood Classification Using Conformal Prediction. IEEE Access 12: 165626-165652 (2024)- [j88]Anne Schweim, Marvin Zager, Marie Schweim, Alexander Fay, Joachim Horn:
Unmanned vehicles on the rise: a review on projects of cooperating robot teams. Autom. 72(1): 3-14 (2024) - [j87]Birgit Vogel-Heuser, Alexander Fay:
Agentenbasierte Automationsarchitekturen für rekonfigurierbare Produktions- und Logistiksysteme. Autom. 72(3): 161-163 (2024) - [j86]Felix Gehlhoff, Hamied Nabizada, Ahmed Elkhateeb, Christian Lepolotec, Martin Röhrig, Alexander Fay:
Agentenbasierte Verhandlung für kooperative Transporte in der Flugzeugmontage. Autom. 72(3): 189-203 (2024) - [j85]Birgit Vogel-Heuser, Alexander Fay, Bernhard Rupprecht, Franz C. Kunze, Victoria Hankemeier, Tom Westermann, Gianluca Manca:
Exploring challenges of alarm root-cause analysis across varying production process types. Autom. 72(4): 369- (2024) - [j84]Tom Westermann, Milapji Singh Gill, Alexander Fay:
Timed Automata und zeitliche Anomalien in Wissensgraphen von automatisierten Produktionsanlagen. Autom. 72(10): 896-905 (2024) - [j83]Artan Markaj, Mehmet Mercangöz, Alexander Fay:
Design and implementation of an Autonomous Systems Training Environment framework for control algorithm evaluation in autonomous plant operation. Comput. Chem. Eng. 189: 108798 (2024) - [j82]Marvin Zager, Christoph Sieber, Alexander Fay:
Towards Semantic Interoperability: An Information Model for Autonomous Mobile Robots. J. Intell. Robotic Syst. 110(3): 123 (2024) - [j81]Birte Caesar, Alejandro Valdezate, Jan Ladiges, Rafael Capilla, Alexander Fay:
A Process for Identifying and Modeling Relevant System Context for the Reconfiguration of Automated Systems. IEEE Trans Autom. Sci. Eng. 21(3): 3977-4002 (2024) - [c206]Lasse Beers, Hamied Nabizada, Maximilian Weigand, Felix Gehlhoff, Alexander Fay:
Towards an MBSE Approach for Modeling Complex Production Systems Based on Industrial Standards. ETFA 2024: 1-8 - [c205]Milapji Singh Gill, Tom Westermann, Gernot Steindl, Felix Gehlhoff, Alexander Fay:
Integrating Ontology Design with the CRISP-DM in the Context of Cyber-Physical Systems Maintenance. ETFA 2024: 1-8 - [c204]Milapji Singh Gill, Jingxi Zhang, Andreas Wortmann, Alexander Fay:
Toward Automating the Composition of Digital Twins Within System-of-Systems. ETFA 2024: 1-4 - [c203]Omar Ismail, Felix Gehlhoff, Nihar H. Shah, Alexander Fay:
Efficient Identification and Validation of Control Program Changes in an Automated Production System Using Virtual Commissioning. ETFA 2024: 1-8 - [c202]Tom Jeleniewski, Jonathan Tobias Reif, Felix Gehlhoff, Alexander Fay:
Parameter Interdependencies in Knowledge Graphs for Manufacturing Processes. ETFA 2024: 1-8 - [c201]Franz Christopher Kunze, Alexander Fay:
Automated Generation of AML Models for Industrial Plants Using LLM Chat Applications. ETFA 2024: 1-4 - [c200]Gianluca Manca, Franz C. Kunze, Alexander Fay:
A Novel Process Plant Alarm Dataset and Methodology for Alarm Data Generation. ETFA 2024: 1-8 - [c199]Artan Markaj, Florian Pelzer, Nils Richter, Alexander Fay, Mehmet Mercangöz:
Development and Integration of Operator Behavior Models for the Evaluation of Autonomous Plants. ETFA 2024: 1-8 - [c198]Hamied Nabizada, Tom Jeleniewski, Felix Gehlhoff, Alexander Fay:
Model-Based Workflow for the Automated Generation of PDDL Descriptions. ETFA 2024: 1-4 - [c197]Malte Ramonat, Franz Christopher Kunze, Felix Gehlhoff, Alexander Fay:
Identifying Root-Causes of Deviations between Simulation and Real Plant Data based on an Adaptive Causal Directed Graph. ETFA 2024: 1-8 - [c196]Jonathan Tobias Reif, Tom Jeleniewski, Milapji Singh Gill, Felix Gehlhoff, Alexander Fay:
Chatbot-Based Ontology Interaction Using Large Language Models and Domain-Specific Standards. ETFA 2024: 1-4 - [c195]Marvin Schieseck, Philip Topalis, Lasse Matthias Reinpold, Felix Gehlhoff, Alexander Fay:
A Formal Model for Artificial Intelligence Applications in Automation Systems. ETFA 2024: 1-8 - [c194]Christoph Sieber, Christian Worpenberg, Felix Gehlhoff, Alexander Fay:
A Hardware-Agnostic Approach to Supervise Heterogeneous Autonomous Mobile Robots. ETFA 2024: 1-8 - [c193]Luis Miguel Vieira da Silva, Aljosha Köcher, Felix Gehlhoff, Alexander Fay:
On the Use of Large Language Models to Generate Capability Ontologies. ETFA 2024: 1-8 - [c192]Luis Miguel Vieira da Silva, Aljosha Köcher, Felix Gehlhoff, Alexander Fay:
Toward a Method to Generate Capability Ontologies from Natural Language Descriptions. ETFA 2024: 1-4 - [c191]Jonathan Tobias Reif, Tom Jeleniewski, Aljosha Köcher, Tim Frerich, Felix Gehlhoff, Alexander Fay:
Semantic Capability Model for the Simulation of Manufacturing Processes. KEOD 2024: 39-50 - [c190]Artan Markaj, Felix Gehlhoff, Alexander Fay:
Semantic-Aware Validation in Model-Driven Requirements Engineering Using SHACL. KEOD 2024: 191-198 - [c189]Maximilian Weigand, Felix Gehlhoff, Alexander Fay:
Extracting API Structures from Documentation to Create Virtual Knowledge Graphs. KEOD 2024: 287-294 - [c188]Vincent Henkel, Maximilian Kilthau, Felix Gehlhoff, Lukas Wagner, Alexander Fay:
Cost Optimized Scheduling in Modular Electrolysis Plants. ICIT 2024: 1-8 - [c187]Lasse Beers, Hamied Nabizada, Maximilian Weigand, Felix Gehlhoff, Alexander Fay:
A SysML Profile for the Standardized Description of Processes during System Development. SysCon 2024: 1-8 - [i29]Vincent Henkel, Maximilian Kilthau, Felix Gehlhoff, Lukas Wagner, Alexander Fay:
Cost Optimized Scheduling in Modular Electrolysis Plants. CoRR abs/2402.05148 (2024) - [i28]Lasse Beers, Hamied Nabizada, Maximilian Weigand, Felix Gehlhoff, Alexander Fay:
A SysML Profile for the Standardized Description of Processes during System Development. CoRR abs/2403.06723 (2024) - [i27]Vincent Henkel, Lukas P. Wagner, Felix Gehlhoff, Alexander Fay:
Combination of Site-Wide and Real-Time Optimization for the Control of Systems of Flexible Energy Resources. CoRR abs/2404.06748 (2024) - [i26]Luis Miguel Vieira da Silva, Aljosha Köcher, Felix Gehlhoff, Alexander Fay:
On the Use of Large Language Models to Generate Capability Ontologies. CoRR abs/2404.17524 (2024) - [i25]Timo Häckel, Luca von Roenn, Nemo Juchmann, Alexander Fay, Rinie Akkermans, Tim Tiedemann, Thomas C. Schmidt:
Coordinating Cooperative Perception in Urban Air Mobility for Enhanced Environmental Awareness. CoRR abs/2405.03290 (2024) - [i24]Luis Miguel Vieira da Silva, Aljosha Köcher, Felix Gehlhoff, Alexander Fay:
Toward a Method to Generate Capability Ontologies from Natural Language Descriptions. CoRR abs/2406.07962 (2024) - [i23]Aron Schnakenbeck, Christoph Sieber, Luis Miguel Vieira da Silva, Felix Gehlhoff, Alexander Fay:
Prävention und Beseitigung von Fehlerursachen im Kontext von unbemannten Fahrzeugen. CoRR abs/2407.02876 (2024) - [i22]Marvin Schieseck, Philip Topalis, Lasse Matthias Reinpold, Felix Gehlhoff, Alexander Fay:
A Formal Model for Artificial Intelligence Applications in Automation Systems. CoRR abs/2407.03183 (2024) - [i21]Milapji Singh Gill, Tom Westermann, Gernot Steindl, Felix Gehlhoff, Alexander Fay:
Integrating Ontology Design with the CRISP-DM in the context of Cyber-Physical Systems Maintenance. CoRR abs/2407.06930 (2024) - [i20]Jonathan Tobias Reif, Tom Jeleniewski, Milapji Singh Gill, Felix Gehlhoff, Alexander Fay:
Chatbot-Based Ontology Interaction Using Large Language Models and Domain-Specific Standards. CoRR abs/2408.00800 (2024) - [i19]Jonathan Tobias Reif, Tom Jeleniewski, Aljosha Köcher, Tim Frerich, Felix Gehlhoff, Alexander Fay:
Semantic Capability Model for the Simulation of Manufacturing Processes. CoRR abs/2408.08048 (2024) - [i18]Hamied Nabizada, Tom Jeleniewski, Felix Gehlhoff, Alexander Fay:
Model-based Workflow for the Automated Generation of PDDL Descriptions. CoRR abs/2408.08145 (2024) - 2023
- [j80]Sarah Fluchs, Rainer Drath, Alexander Fay:
Evaluation of Visual Notations as a Basis for ICS Security Design Decisions. IEEE Access 11: 9967-9994 (2023) - [j79]Birte Caesar, Kira Barton, Dawn M. Tilbury, Alexander Fay:
Digital Twin Framework for Reconfiguration Management: Concept & Evaluation. IEEE Access 11: 127364-127387 (2023) - [j78]Maximilian Kilthau, Martin Asman, Alexandra Karmann, Ghayathri Suriyamoorthy, Jan-Philip Beck, Vincenz Regener, Christian Derksen, Nils Loose, Moritz Volkmann, Shashank Shekher Tripathi, Felix Gehlhoff, Kamil Korotkiewicz, Philippe Steinbusch, Volker Skwarek, Markus Zdrallek, Alexander Fay:
Integrating Peer-to-Peer Energy Trading and Flexibility Market With Self-Sovereign Identity for Decentralized Energy Dispatch and Congestion Management. IEEE Access 11: 145395-145420 (2023) - [j77]Artan Markaj, Nicolai Schoch, Katharina Stark, Mario Hoernicke, Alexander Fay:
Erweitertes Vorgehensmodell für intentionsbasiertes Engineering und Automatisierung modularer verfahrenstechnischer Anlagen. Autom. 71(1): 27-43 (2023) - [j76]Aron Schnakenbeck, Robin Mross, Marcus Völker, Stefan Kowalewski, Alexander Fay:
Transformation von GRAFCET in GAL auf Basis eines ausführlichen Metamodells zur Verifikation von Entwurfsfehlern. Autom. 71(1): 56-68 (2023) - [j75]Alexander Fay, Jörg Neidig:
Capabilities and skills - towards unequivocal descriptions of what machines can do. Autom. 71(2): 91-93 (2023) - [j74]Luis Miguel Vieira da Silva, René Heesch, Aljosha Köcher, Alexander Fay:
Transformation eines Fähigkeitsmodells in einen PDDL-Planungsansatz. Autom. 71(2): 105-115 (2023) - [j73]Aljosha Köcher, Lasse Beers, Alexander Fay:
Vergleich und Modell-Transformation zwischen Module Type Package und einem Fähigkeitsmodell. Autom. 71(2): 127-140 (2023) - [j72]Luis Miguel Vieira da Silva, Aljosha Köcher, Alexander Fay:
A capability and skill model for heterogeneous autonomous robots. Autom. 71(2): 140-150 (2023) - [j71]Timo Müller, Birte Caesar, Matthias Weiß, Selma Ferhat, Nada Sahlab, Alexander Fay, Raphaël Oger, Nasser Jazdi, Michael Weyrich:
Reconfiguration management in manufacturing: A systematic literature review. Autom. 71(5): 330-350 (2023) - [j70]Sarah Fluchs, Emre Tastan, Tobias Trumpf, Alexander Horch, Rainer Drath, Alexander Fay:
Nachvollziehbare Security by Design-Entscheidungen für Automatisierungssysteme mittels funktionsbasierter Diagramme und Security-Bibliotheken. Autom. 71(9): 759-778 (2023) - [j69]Artan Markaj, Julius Lorenz, Lena Scholz, Vincent Henkel, Alexander Fay:
Towards a systematic and knowledge-based requirements and conceptual engineering for modular electrolysis plants. Energy Inform. 6(1): 43 (2023) - [j68]Sarah Fluchs, Emre Tastan, Tobias Trumpf, Alexander Horch, Rainer Drath, Alexander Fay:
Traceable Security-by-Design Decisions for Cyber-Physical Systems (CPSs) by Means of Function-Based Diagrams and Security Libraries. Sensors 23(12): 5547 (2023) - [c186]Lasse Beers, Maximilian Weigand, Hamied Nabizada, Alexander Fay:
MBSE Modeling Workflow for the Development of Automated Aircraft Production Systems. ETFA 2023: 1-8 - [c185]Milapji Singh Gill, Tom Westermann, Marvin Schieseck, Alexander Fay:
Integration of Domain Expert-Centric Ontology Design into the CRISP-DM for Cyber-Physical Production Systems. ETFA 2023: 1-8 - [c184]Tom Jeleniewski, Jonathan Tobias Reif, Alexander Fay:
Integrating Interdependencies in Semantic Manufacturing Process Description Models. ETFA 2023: 1-4 - [c183]Robin Mroß, Aron Schnakenbeck, Marcus Völker, Alexander Fay, Stefan Kowalewski:
Unambiguous Interpretation of IEC 60848 GRAFCET based on a Literature Review. ETFA 2023: 1-8 - [c182]Jonathan Tobias Reif, Tom Jeleniewski, Alexander Fay:
An Approach to Automating the Generation of Process Simulation Sequences. ETFA 2023: 1-4 - [c181]Aron Schnakenbeck, Robin Mroß, Marcus Völker, Stefan Kowalewski, Alexander Fay:
Structural Analysis of GRAFCET Control Specifications. ETFA 2023: 1-8 - [c180]Lena Scholz, Vincent Henkel, Artan Markaj, Alexander Fay:
Towards a domain-specific refinement of Process Orchestration Layers for Modular Electrolysis Plants. ETFA 2023: 1-4 - [c179]Luis Miguel Vieira da Silva, Aljosha Köcher, Milapji Singh Gill, Marco Weiss, Alexander Fay:
Toward a Mapping of Capability and Skill Models using Asset Administration Shells and Ontologies. ETFA 2023: 1-4 - [c178]Luis Miguel Vieira da Silva, Aljosha Köcher, Philip Topalis, Alexander Fay:
A Python Framework for Robot Skill Development and Automated Generation of Semantic Descriptions. ETFA 2023: 1-8 - [c177]Gianluca Manca, Alexander Fay:
Explainable AI for Industrial Alarm Flood Classification Using Counterfactuals. IECON 2023: 1-8 - [c176]Tom Westermann, Milapji Singh Gill, Alexander Fay:
Representing Timed Automata and Timing Anomalies of Cyber-Physical Production Systems in Knowledge Graphs. IECON 2023: 1-7 - [c175]Michelle Blumenstein, Vincent Henkel, Alexander Fay, Andreas Stutz, Stephan Scheuren, Niklas Austermann:
Integration of Flexible Transport Systems into Modular Production-Related Logistics Areas. INDIN 2023: 1-8 - [c174]Omar Ismail, Alexander Fay:
Optimizing Virtual Commissioning of a Robotic System using Process Mining and Footprints Conformance Checking. INDIN 2023: 1-6 - [c173]Artan Markaj, Mark Laskow, Aljosha Köcher, Alexander Fay:
Automated Generation of MTP Skeletons Based on Ontologies. INDIN 2023: 1-7 - [c172]Robin Mroß, Aron Schnakenbeck, Marcus Völker, Alexander Fay, Stefan Kowalewski:
GRAFCET Reduction Techniques for Model Checking. INDIN 2023: 1-6 - [c171]Maximilian Rappl, Max Luca Bergmann, Alexander Fay:
Formalization of a Product-Process-Resource Model within Aircraft Component Maintenance, Repair, and Overhaul. INDIN 2023: 1-7 - [c170]Leif-Thore Reiche, Alexander Fay:
Communication of energy data in modular production. INDIN 2023: 1-6 - [c169]Marvin Schieseck, Philip Topalis, Alexander Fay:
A Graphical Modeling Language for Artificial Intelligence Applications in Automation Systems. INDIN 2023: 1-7 - [c168]Aron Schnakenbeck, Robin Mroß, Marcus Völker, Stefan Kowalewski, Alexander Fay:
A Control Flow based Static Analysis of GRAFCET using Abstract Interpretation. INDIN 2023: 1-7 - [c167]Andreas Stutz, Alexander Fay, Mike Barth, Mathias Maurmaier:
Automation Service Choreographies using Decentralized Orchestration to Integrate Non-Choreography-Enabled Equipment Assemblies. INDIN 2023: 1-8 - [c166]Tom Jeleniewski, Hamied Nabizada, Jonathan Tobias Reif, Aljosha Köcher, Alexander Fay:
A Semantic Model to Express Process Parameters and their Interdependencies in Manufacturing. ISIE 2023: 1-6 - [c165]Malte Ramonat, Alexander Fay:
Method for Automatic Simulation Model Calibration and Maintenance for Brownfield Process Plants. ISIE 2023: 1-6 - [c164]Birte Caesar, Nico Jansen, Maximilian Weigand, Alexander Fay, Bernhard Rumpe:
Extracting Hardware Reconfiguration Models Based on Knowledge Synthesis from STEP Files. MoDELS (Companion) 2023: 434-443 - [c163]Hendrik Göttmann, Birte Caesar, Lasse Beers, Malte Lochau, Andy Schürr, Alexander Fay:
Precomputing Reconfiguration Strategies based on Stochastic Timed Game Automata. Software Engineering 2023: 55-56 - [c162]Maximilian Kilthau, Daniel Ansari, Alexander Fay:
Distributed Topology Optimization for Agent-based Peer-to-Peer Energy Market. SmartGridComm 2023: 1-6 - [c161]Lukas Peter Wagner, Maximilian Kilthau, Lasse Matthias Reinpold, Alexander Fay:
Required Level of Detail of Optimization Models for the Control of Flexible Energy Resources. SmartGridComm 2023: 1-6 - [d5]Hendrik Göttmann, Birte Caesar, Lasse Beers, Malte Lochau, Andy Schürr, Alexander Fay:
Cost-Sensitive Precomputation of Real-Time-Aware Reconfiguration Strategies based on Stochastic Priced Timed Games. Version 1.3. Zenodo, 2023 [all versions]
- [d4]Lasse Matthias Reinpold, Lukas Peter Wagner, Felix Gehlhoff, Malte Ramonat, Maximilian Kilthau, Milapji Singh Gill, Jonathan Tobias Reif, Vincent Henkel, Lena Scholz, Alexander Fay:
Systematic Comparison of Software Agents and Digital Twins: Differences, Similarities, and Synergies in Industrial Production: A Dataset. Zenodo, 2023 - [i17]Aron Schnakenbeck, Robin Mroß, Marcus Völker, Stefan Kowalewski, Alexander Fay:
A Control Flow based Static Analysis of GRAFCET using Abstract Interpretation. CoRR abs/2306.04584 (2023) - [i16]Marvin Schieseck, Philip Topalis, Alexander Fay:
A Graphical Modeling Language for Artificial Intelligence Applications in Automation Systems. CoRR abs/2306.11767 (2023) - [i15]Luis Miguel Vieira da Silva, Aljosha Köcher, Milapji Singh Gill, Marco Weiss, Alexander Fay:
Toward a Mapping of Capability and Skill Models using Asset Administration Shells and Ontologies. CoRR abs/2307.00827 (2023) - [i14]Lasse Matthias Reinpold, Lukas P. Wagner, Felix Gehlhoff, Malte Ramonat, Maximilian Kilthau, Milapji Singh Gill, Jonathan Tobias Reif, Vincent Henkel, Lena Scholz, Alexander Fay:
Systematic Comparison of Software Agents and Digital Twins: Differences, Similarities, and Synergies in Industrial Production. CoRR abs/2307.08421 (2023) - [i13]Robin Mroß, Aron Schnakenbeck, Marcus Völker, Alexander Fay, Stefan Kowalewski:
Unambiguous Interpretation of IEC 60848 GRAFCET based on a Literature Review. CoRR abs/2307.11556 (2023) - [i12]Milapji Singh Gill, Tom Westermann, Marvin Schieseck, Alexander Fay:
Integration of Domain Expert-Centric Ontology Design into the CRISP-DM for Cyber-Physical Production Systems. CoRR abs/2307.11637 (2023) - [i11]Aron Schnakenbeck, Robin Mroß, Marcus Völker, Stefan Kowalewski, Alexander Fay:
Structural Analysis of GRAFCET Control Specifications. CoRR abs/2307.13703 (2023) - [i10]Tom Westermann, Milapji Singh Gill, Alexander Fay:
Representing Timed Automata and Timing Anomalies of Cyber-Physical Production Systems in Knowledge Graphs. CoRR abs/2308.13433 (2023) - [i9]Aljosha Köcher, Luis Miguel Vieira da Silva, Alexander Fay:
Automated Process Planning Based on a Semantic Capability Model and SMT. CoRR abs/2312.08801 (2023) - 2022
- [j67]Robin Mross, Aron Schnakenbeck, Marcus Völker, Alexander Fay, Stefan Kowalewski:
Transformation of GRAFCET Into GAL for Verification Purposes Based on a Detailed Meta-Model. IEEE Access 10: 125652-125665 (2022) - [j66]Fritz Miekautsch, Alexander Fay:
Fahrsituationsabhängiger Wechsel der Kommunikationstopologie für heterogene Platoons. Autom. 70(4): 389-399 (2022) - [j65]Seppo A. Sierla, Mohammad Azangoo, Kari Rainio, Nikolaos Papakonstantinou, Alexander Fay, Petri Honkamaa, Valeriy Vyatkin:
Roadmap to semi-automatic generation of digital twins for brownfield process plants. J. Ind. Inf. Integr. 27: 100282 (2022) - [c160]Gianluca Manca, Marcel Dix, Alexander Fay:
Clustering of Similar Industrial Alarm Floods. BigDataService 2022: 161-166 - [c159]Birte Caesar, Dawn M. Tilbury, Kira Barton, Alexander Fay:
Digital Twin Framework for Reconfiguration Management. CASE 2022: 1807-1813 - [c158]Lukas Bittorf, Lucien Beisswenger, Daniel Erdmann, Julius Lorenz, Anselm Klose, Hannes Lange, Leon Urbas, Artan Markaj, Alexander Fay:
Upcoming domains for the MTP and an evaluation of its usability for electrolysis. ETFA 2022: 1-4 - [c157]Michelle Blumenstein, Andreas Stutz, Alexander Fay, Mike Barth, Mathias Maurmaier:
Coordination of Modular Packaging Lines Using Automation Service Choreographies. ETFA 2022: 1-8 - [c156]Birte Caesar, Nico Jansen, Maximillian Weigand, Malte Ramonat, Claas Steffen Gundlach, Alexander Fay, Bernhard Rumpe:
Extracting Functional Machine Knowledge from STEP Files for Digital Twins. ETFA 2022: 1-4 - [c155]Milapji Singh Gill, Leif-Thore Reiche, Alexander Fay:
Method for selecting Digital Twins of Entities in a System-of-Systems approach based on essential Information Attributes. ETFA 2022: 1-8 - [c154]Pascal Habiger, Gary Hildebrandt, Rainer Drath, Alexander Fay, Thomas Greiner:
Modelling Service Properties to Manage their Diversity within Modular Manufacturing Plants. ETFA 2022: 1-4 - [c153]Aljosha Köcher, Lasse Beers, Alexander Fay:
A Mapping Approach to Convert MTPs into a Capability and Skill Ontology. ETFA 2022: 1-8 - [c152]Aljosha Köcher, Artan Markaj, Alexander Fay:
Toward a Generic Mapping Language for Transformations between RDF and Data Interchange Formats. ETFA 2022: 1-4 - [c151]Aljosha Köcher, Luis Miguel Vieira da Silva, Alexander Fay:
Modeling and Executing Production Processes with Capabilities and Skills using Ontologies and BPMN. ETFA 2022: 1-8 - [c150]Artan Markaj, Alexander Fay, Nicolai Schoch, Katharina Stark, Mario Hoernicke:
Intention-based engineering for the early design phases and the automation of modular process plants. ETFA 2022: 1-8 - [c149]Gian Frederik Mewes, Raphael Höfer, Alexander Fay:
The Correction of the Nozzle-Bed-Distance in Robotic Curved Layer Fused Deposition Modeling with ULTEM 9085. ETFA 2022: 1-8 - [c148]Leif-Thore Reiche, Alexander Fay:
Concept for extending the Module Type Package with energy management functionalities. ETFA 2022: 1-8 - [c147]Maxim Runge, Leif-Thore Reiche, Karl-Heinz Niemann, Alexander Fay:
Universal energy information model for industrial communication. ETFA 2022: 1-8 - [c146]Tom Westermann, Nemanja Hranisavljevic, Alexander Fay:
Accessing and Interpreting OPC UA Event Traces based on Semantic Process Descriptions. ETFA 2022: 1-7 - [c145]Aljosha Köcher, Alexander Hayward, Alexander Fay:
Model-Based Engineering of CPPS Functions and Code Generation for Skills. ICPS 2022: 1-8 - [c144]Marcel Lewke, Hongjian Wu, Alexander List, Frank Gärtner, Thomas Klassen, Alexander Fay:
Integration of Pre-machining Geometries for Repair Application by Cold Spray. ICPS 2022: 1-6 - [c143]Gianluca Manca, Alexander Fay:
Off-Line Analysis of Dynamic Causal Dependencies in Evolving Industrial Alarm Floods. ICPS 2022: 1-8 - [c142]Artan Markaj, Alexander Fay, Katharina Stark, Nicolai Schoch, Mario Hoernicke:
From intentions to services in modular process plants. ICPS 2022: 1-8 - [c141]Sarah Fluchs, Emre Tasten, Martin Mertens, Alexander Horch, Rainer Drath, Alexander Fay:
Security by Design Integration Mechanisms for Industrial Control Systems. IECON 2022: 1-6 - [c140]Fabian Stoller, Marvin Höhner, Alexander Fay, Felix Kümmerlen:
Vision-based targeting system for automatic fire fighting: concept and evaluation. IECON 2022: 1-6 - [c139]Maximilian Weigand, Alexander Fay:
Creating Virtual Knowledge Graphs from Software-Internal Data. IECON 2022: 1-6 - [c138]Marvin Zager, Christoph Sieber, Alexander Fay:
Towards a context identification method for autonomous robots. IECON 2022: 1-6 - [c137]Alaettin Dogan, Aron Schnakenbeck, Alexander Fay:
Distributed ledger-based authentication and authorization for Industrie 4.0 components. INDIN 2022: 180-187 - [c136]Gianluca Manca, Alexander Fay:
Identification of Industrial Alarm Floods Using Time Series Classification and Novelty Detection. INDIN 2022: 698-705 - [c135]Felix Seeland, Fritz Miekautsch, Alexander Fay, Joachim Horn:
Constrained Control for Heterogeneous Vehicle Platoons. MMAR 2022: 164-169 - [c134]Hendrik Göttmann, Birte Caesar, Lasse Beers, Malte Lochau, Andy Schürr, Alexander Fay:
Precomputing reconfiguration strategies based on stochastic timed game automata. MoDELS 2022: 31-42 - [c133]Alexander Hayward, Maximilian Rappl, Alexander Fay:
A SysML-based Function-Centered Approach for the Modeling of System Groups for Collaborative Cyber-Physical Systems. SysCon 2022: 1-8 - [c132]Artan Markaj, Alexander Fay, Nicolai Schoch, Katharina Stark, Mario Hoernicke:
Intention-based engineering for process plants. SysCon 2022: 1-8 - [d3]Hendrik Göttmann, Birte Caesar, Lasse Beers, Malte Lochau, Andy Schürr, Alexander Fay:
Precomputing Reconfiguration Strategies based on Stochastic Timed Game Automata. Version 1.2. Zenodo, 2022 [all versions] - [d2]Hendrik Göttmann, Birte Caesar, Lasse Beers, Malte Lochau, Andy Schürr, Alexander Fay:
Precomputing Reconfiguration Strategies based on Stochastic Timed Game Automata. Version 1.2.1. Zenodo, 2022 [all versions] - [d1]Hendrik Göttmann, Birte Caesar, Lasse Beers, Malte Lochau, Andy Schürr, Alexander Fay:
Precomputing Reconfiguration Strategies based on Stochastic Timed Game Automata. Version 1.2.2. Zenodo, 2022 [all versions] - [i8]Aljosha Köcher, Alexander Hayward, Alexander Fay:
Model-Based Engineering of CPPS Functions and Code Generation for Skills. CoRR abs/2201.13290 (2022) - [i7]Aljosha Köcher, Luis Miguel Vieira da Silva, Alexander Fay:
Modeling and Executing Production Processes with Capabilities and Skills using Ontologies and BPMN. CoRR abs/2204.09472 (2022) - [i6]Aljosha Köcher, Lasse Beers, Alexander Fay:
A Mapping Approach to Convert MTPs into a Capability and Skill Ontology. CoRR abs/2205.01382 (2022) - [i5]Felix Gehlhoff, Alexander Fay:
Concepts and Algorithms for Agent-based Decentralized and Integrated Scheduling of Production and Auxiliary Processes. CoRR abs/2205.04461 (2022) - [i4]Aljosha Köcher, Artan Markaj, Alexander Fay:
Toward a Generic Mapping Language for Transformations between RDF and Data Interchange Formats. CoRR abs/2207.11205 (2022) - [i3]Tom Westermann, Nemanja Hranisavljevic, Alexander Fay:
Accessing and Interpreting OPC UA Event Traces based on Semantic Process Descriptions. CoRR abs/2207.12252 (2022) - [i2]Luis Miguel Vieira da Silva, Aljosha Köcher, Alexander Fay:
A Capability and Skill Model for Heterogeneous Autonomous Robots. CoRR abs/2209.10900 (2022) - 2021
- [j64]Gianluca Manca, Alexander Fay:
Detection of Historical Alarm Subsequences Using Alarm Events and a Coactivation Constraint. IEEE Access 9: 46851-46873 (2021) - [j63]Gianluca Manca, Marcel Dix, Alexander Fay:
Clustering of Similar Historical Alarm Subsequences in Industrial Control Systems Using Alarm Series and Characteristic Coactivations. IEEE Access 9: 154965-154974 (2021) - [j62]Artan Markaj, Alexander Fay:
Verfügbarkeitsanalyse verfahrenstechnischer Anlagen durch stochastische Zustandsmodellierung unterschiedlicher Instandhaltungsstrategien. Autom. 69(3): 200-210 (2021) - [j61]Eva Brucherseifer, Alexander Fay:
Digital Twins. Autom. 69(12): 1023-1025 (2021) - [j60]Timo Busert, Alexander Fay:
Information quality focused value stream mapping for the coordination and control of production processes. Int. J. Prod. Res. 59(15): 4559-4578 (2021) - [j59]Matthias Seitz, Felix Gehlhoff, Luis Alberto Cruz Salazar, Alexander Fay, Birgit Vogel-Heuser:
Automation platform independent multi-agent system for robust networks of production resources in industry 4.0. J. Intell. Manuf. 32(7): 2023-2041 (2021) - [c131]Henry Bloch, Alexander Fay:
Modelling of service dependencies in modular process plants for the analysis of orchestrations. ETFA 2021: 1-4 - [c130]Christian Härle, Mike Barth, Alexander Fay:
Operation-parallel adaptation of a co-simulation for discrete manufacturing plants. ETFA 2021: 1-8 - [c129]Marcel Lewke, Sören Nielsen, Alexander List, Frank Gärtner, Thomas Klassen, Alexander Fay:
Knowledge-based Optimization of Cold Spray for Aircraft Component Repair. ETFA 2021: 1-4 - [c128]Artan Markaj, Alexander Fay, Mario Hoernicke, Nicolai Schoch, Katharina Stark:
Requirements and conceptual design for hybrid process plants. ETFA 2021: 1-4 - [c127]Leif-Thore Reiche, Claas Steffen Gundlach, Gian Frederik Mewes, Alexander Fay:
The Digital Twin of a System: A Structure for Networks of Digital Twins. ETFA 2021: 1-8 - [c126]Leif-Thore Reiche, Artan Markaj, Alexander Fay:
Energy management in modular production. ETFA 2021: 1-4 - [c125]Maxim Runge, Leif-Thore Reiche, Karl-Heinz Niemann, Alexander Fay, Andreas Würger:
Requirements for an energy data information model for a communication-independent device description. ETFA 2021: 1-4 - [c124]Andreas Stutz, Alexander Fay, Mike Barth, Mathias Maurmaier:
Software Patterns for the Realization of Automation Service Choreographies. ETFA 2021: 1-8 - [c123]Malte Ramonat, Andreas W. Müller, Alexander Fay:
Towards Automation of Regulatory Compliance Checking in the Product Design Phase. KEOD 2021: 136-143 - [c122]Felix Gehlhoff, Lukas Wiegandt, Alexander Fay:
Agent-Based Decentralised Process Planning and Evolutionary Change Propagation. ICIT 2021: 1015-1020 - [c121]Aljosha Köcher, Tom Jeleniewski, Alexander Fay:
A Method to Automatically Generate Semantic Skill Models from PLC Code. IECON 2021: 1-6 - [c120]Aljosha Köcher, Luis Miguel Vieira da Silva, Alexander Fay:
Constraint Checking of Skills using SHACL. INDIN 2021: 1-6 - [c119]Gian Frederik Mewes, Alexander Fay:
The Correction of the Nozzle-Bed-Distance in Robotic Fused Deposition Modeling. INDIN 2021: 1-6 - [c118]Leif-Thore Reiche, Maxim Runge, Karl-Heinz Niemann, Alexander Fay:
Communication of energy data in automation systems. WFCS 2021: 45-48 - [p5]Alexander Hayward, Marian Daun, Ana Petrovska, Wolfgang Böhm, Lisa Krajinski, Alexander Fay:
Function Modeling for Collaborative Embedded Systems. Model-Based Engineering of Collaborative Embedded Systems 2021: 71-93 - [i1]Seppo A. Sierla, Mohammad Azangoo, Alexander Fay, Valeriy Vyatkin, Nikolaos Papakonstantinou:
Integrating 2D and 3D Digital Plant Information Towards Automatic Generation of Digital Twins. CoRR abs/2104.01854 (2021) - 2020
- [j58]Felix Gehlhoff, Alexander Fay:
On agent-based decentralized and integrated scheduling for small-scale manufacturing. Autom. 68(1): 15-31 (2020) - [j57]Jakob Krooß, Felix Kümmerlen, Alexander Fay:
Robuste und präzise Lokalisierung von Deflagrationen mithilfe eines Multikamerasystems. Autom. 68(3): 196-207 (2020) - [j56]Ulrich Löwen, Feras El Sakka, Andreas Schertl, Alexander Fay:
A systematic approach how to build, maintain and use an integrated plant model. Autom. 68(6): 423-434 (2020) - [j55]Birgit Vogel-Heuser, Matthias Seitz, Luis Alberto Cruz Salazar, Felix Gehlhoff, Alaettin Dogan, Alexander Fay:
Multi-agent systems to enable Industry 4.0. Autom. 68(6): 445-458 (2020) - [j54]Julian Sundermeier, Felix Gehlhoff, Alexander Fay:
Development of a Simulation Model to Analyze the Performance of Decentral Rescheduling Algorithms in Production Systems. Simul. Notes Eur. 30(1): 15-22 (2020) - [j53]Cesare Fantuzzi, Alexander Fay, Georg Frey, Birgit Vogel-Heuser:
Guest Editorial Special Section on the 2018 Conference on Automation Science and Engineering (CASE). IEEE Trans Autom. Sci. Eng. 17(3): 1182-1183 (2020) - [j52]Constantin Hildebrandt, Aljosha Köcher, Christof Küstner, Carlos-Manuel López-Enríquez, Andreas W. Müller, Birte Caesar, Claas Steffen Gundlach, Alexander Fay:
Ontology Building for Cyber-Physical Systems: Application in the Manufacturing Domain. IEEE Trans Autom. Sci. Eng. 17(3): 1266-1282 (2020) - [c117]Aljosha Köcher, Constantin Hildebrandt, Birte Caesar, Jupiter Bakakeu, Jörn Peschke, André Scholz, Alexander Fay:
Automating the Development of Machine Skills and their Semantic Description. ETFA 2020: 1013-1018 - [c116]Felix Gehlhoff, Alexander Fay:
Agent-based decentralised architecture for multi-stage and integrated scheduling. ETFA 2020: 1443-1446 - [c115]Aljosha Köcher, Constantin Hildebrandt, Luis Miguel Vieira da Silva, Alexander Fay:
A Formal Capability and Skill Model for Use in Plug and Produce Scenarios. ETFA 2020: 1663-1670 - [c114]Birte Caesar, Albrecht Hänel, Eric Wenkler, Christian Corinth, Steffen Ihlenfeldt, Alexander Fay:
Information Model of a Digital Process Twin for Machining Processes. ETFA 2020: 1765-1772 - [c113]Felix Seeland, Fritz Miekautsch, Alexander Fay, Joachim Horn:
Mitigation and Evasion of Negative Effects of Nonhomogeneous Vehicle Dynamics in Platooning Applications. ECC 2020: 166-171 - [c112]Andreas Stutz, Alexander Fay, Mike Barth, Mathias Maurmaier:
Choreographies in Microservice-Based Automation Architectures : Next Level of Flexibility for Industrial Cyber-Physical Systems. ICPS 2020: 411-416 - [c111]Seppo A. Sierla, Mohammad Azangoo, Alexander Fay, Valeriy Vyatkin, Nikolaos Papakonstantinou:
Integrating 2D and 3D Digital Plant Information Towards Automatic Generation of Digital Twins. ISIE 2020: 460-467
2010 – 2019
- 2019
- [j51]Robert Julius, Viktoria Fink, Stefan Uelzen, Alexander Fay:
Konzept zur bidirektionalen Transformation zwischen GRAFCET-Spezifikationen und IEC 61131-3 Steuerungscode. Autom. 67(3): 208-217 (2019) - [j50]Birgit Vogel-Heuser, Alexander Fay, Georg Frey:
IEEE International Conference on Automation Science and Engineering 2018. Autom. 67(6): 443-444 (2019) - [j49]Birgit Vogel-Heuser, Cesare Fantuzzi, Manuel Wimmer, Markus Böhm, Alexander Fay:
Herausforderungen in der interdisziplinären Entwicklung von Cyber-Physischen Produktionssystemen. Autom. 67(6): 445-454 (2019) - [j48]Mariagrazia Dotoli, Alexander Fay, Marek Miskowicz, Carla Seatzu:
An overview of current technologies and emerging trends in factory automation. Int. J. Prod. Res. 57(15-16): 5047-5067 (2019) - [j47]Marcus Lewin, Alaettin Dogan, Jonas Schwarz, Alexander Fay:
Distributed-Ledger-Technologien und Industrie 4.0 - Eine Untersuchung der Relevanz für Industrie 4.0. Inform. Spektrum 42(3): 166-173 (2019) - [c110]Xuan Luu Hoang, Alexander Fay:
A Capability Model for the Adaptation of Manufacturing Systems. ETFA 2019: 1053-1060 - [c109]Sebastian Törsleff, Constantin Hildebrandt, Alexander Fay:
Development of Ontologies for Reasoning and Communication in Multi-Agent Systems. KEOD 2019: 450-457 - [c108]Felix Gehlhoff, Hamied Nabizada, Alexander Fay:
Optimization of multi-agent auctioning processes in flexible production networks. INDIN 2019: 100-105 - [c107]Xuan Luu Hoang, Sascha Backhaus, Rolf Bense, Alexander Fay, David Küstner, Benjamin Schulze:
An Interface-Oriented Resource Capability Model to Support Reconfiguration of Manufacturing Systems. SysCon 2019: 1-8 - [c106]Robert Julius, Thomas Trenner, Alexander Fay, Jörg Neidig, Xuan Luu Hoang:
A meta-model based environment for GRAFCET specifications. SysCon 2019: 1-7 - [p4]Jan Jürjens, Kurt Schneider, Jens Bürger, Fabien Patrick Viertel, Daniel Strüber, Michael Goedicke, Ralf H. Reussner, Robert Heinrich, Emre Taspolatoglu, Marco Konersmann, Alexander Fay, Winfried Lamersdorf, Jan Ladiges, Christopher Haubeck:
Maintaining Security in Software Evolution. Managed Software Evolution 2019: 207-253 - [p3]Stefan Kögel, Matthias Tichy, Abhishek Chakraborty, Alexander Fay, Birgit Vogel-Heuser, Christopher Haubeck, Gabriele Taentzer, Timo Kehrer, Jan Ladiges, Lars Grunske, Mattias Ulbrich, Safa Bougouffa, Sinem Getir, Suhyun Cha, Udo Kelter, Winfried Lamersdorf, Kiana Busch, Robert Heinrich, Sandro Koch:
Learning from Evolution for Evolution. Managed Software Evolution 2019: 255-308 - 2018
- [j46]Alexander Fay, Martin Emmerich Witte, Helmut Figalist:
Modellbasierte Verfahren in der Automation von Produktionsanlagen. Autom. 66(5): 357-359 (2018) - [j45]Suthida Thongnuch, Alexander Fay, Rainer Drath:
Semi-automatic generation of a virtual representation of a production cell. Autom. 66(5): 372-384 (2018) - [j44]Matthias Glawe, Constantin Hildebrandt, Jörn Peschke, Alexander Fay:
Semantische Ermittlung kinematischer Fähigkeiten aus Anlagenplanungsdaten. Autom. 66(5): 385-396 (2018) - [j43]Jan Ladiges, Aljosha Köcher, Peer Clement, Henry Bloch, Thomas Holm, Paul Altmann, Alexander Fay, Leon Urbas:
Entwurf, Modellierung und Verifikation von Serviceabhängigkeiten in Prozessmodulen. Autom. 66(5): 418-437 (2018) - [j42]Feras El Sakka, Henry Bloch, Jakob Kinghorst, Mina Fahimi Pirehgalin, Alexander Fay, Birgit Vogel-Heuser:
Improved alarm flood analysis by cluster identification and alarm assignment. Autom. 66(8): 647-655 (2018) - [j41]Birgit Vogel-Heuser, Alexander Fay:
Methods to support the evolution of Cyber Physical Production Systems. Autom. 66(10): 781-783 (2018) - [j40]Christopher Pietsch, Udo Kelter, Christopher Haubeck, Winfried Lamersdorf, Abhishek Chakraborty, Alexander Fay:
Using model differencing to reason about observable behavior changes of manufacturing systems. Autom. 66(10): 795-805 (2018) - [j39]Christopher Haubeck, Heiko Bornholdt, Winfried Lamersdorf, Abhishek Chakraborty, Alexander Fay:
Step-based evolution support among networked production automation systems. Autom. 66(10): 849-858 (2018) - [c105]Tobias Linnenberg, Alexander Fay:
Software engineering for agent based energy systems. CASE 2018: 174-180 - [c104]Constantin Hildebrandt, Sebastian Törsleff, Birte Caesar, Alexander Fay:
Ontology Building for Cyber-Physical Systems: A domain expert-centric approach. CASE 2018: 1079-1086 - [c103]Christian Härle, Mike Barth, Alexander Fay:
Process simulation on single-board computers. CASE 2018: 1548-1555 - [c102]Sebastian Törsleff, Constantin Hildebrandt, Marian Daun, Jennifer Brings, Alexander Fay:
Developing Ontologies for the Collaboration of Cyber-Physical Systems: Requirements and Solution Approach. EITEC@CPSWeek 2018: 25-32 - [c101]Antje Rogalla, Alexander Fay, Oliver Niggemann:
Improved Domain Modeling for Realistic Automated Planning and Scheduling in Discrete Manufacturing. ETFA 2018: 464-471 - [c100]Timo Busert, Alexander Fay:
Information Quality Dimensions for Identifying and Handling Inaccuracy and Uncertainty in Production Planning and Control. ETFA 2018: 581-588 - [c99]Felix Gehlhoff, Timo Busert, Marcus Lewin, Alexander Fay:
Incorporating Imperfect Information in Decentralized Agent-Based Dynamic and Integrated Scheduling. ETFA 2018: 816-823 - [c98]Andreas Würger, Karl-Heinz Niemann, Alexander Fay:
Concept for an Energy Data Aggregation Layer for Production Sites A Combination of AutomationML and OPC UA. ETFA 2018: 1051-1055 - [c97]Xuan Luu Hoang, Alexander Fay, Philipp Marks, Michael Weyrich:
Industrial Application of a MDM-Based Approach for Generation and Impact Analysis of Adaptation Options - a Case Study. ETFA 2018: 1244-1247 - [c96]Henry Bloch, Tobias Grebner, Alexander Fay, Stephan Hensel, Anna Menschner, Leon Urbas, Mario Hoernicke, Torsten Knohl, Jens Bernshausen, Bayer Ag:
Orchestration of Services in Modular Process Plants. IECON 2018: 2935-2940 - [c95]Constantin Hildebrandt, Sebastian Törsleff, Torsten Bandyszak, Birte Caesar, Alexander Ludewig, Alexander Fay:
Ontology Engineering for Collaborative Embedded Systems - Requirements and Initial Approach. Modellierung (Workshops) 2018: 57-66 - [c94]Alexander Ludewig, Marian Daun, Ana Petrovska, Wolfgang Böhm, Alexander Fay:
Requirements for Modeling Dynamic Function Networks for Collaborative Embedded Systems. Modellierung (Workshops) 2018: 79-89 - [c93]Birte Caesar, Wolfram Klein, Constantin Hildebrandt, Sebastian Törsleff, Alexander Fay, Jan Christoph Wehrstedt:
New Opportunities using Variability Management in the Manufacturing Domain during Runtime. Modellierung (Workshops) 2018: 91-100 - 2017
- [j38]Heiko Seidel, Mathias Mühlhause, Tobias Jäger, Alexander Fay, Christian Diedrich:
Automatische Workflow-Generierung für Engineering-Prozesse. Autom. 65(1): 37-48 (2017) - [j37]Erik Wassermann, Tobias Linnenberg, Sebastian Törsleff, Alexander Fay, Christian Derksen, Nils Loose, Rainer Unland, Marcel Ludwig, Marcus Stötzel, Markus Zdrallek, Wolfram Heldmaier:
Einheitliches und durchgängiges Engineering von Steuerungslösungen für hybride Energiesysteme und -netze mittels Energie-Agenten. Autom. 65(1): 60-72 (2017) - [j36]Christopher Tebbe, Matthias Glawe, Karl-Heinz Niemann, Alexander Fay:
Informationsbedarf für automatische IT-Sicherheitsanalysen automatisierungstechnischer Anlagen. Autom. 65(1): 87-97 (2017) - [j35]Alexander Fay, Klaus Kabitzsch:
Gebäudeautomation. Autom. 65(9): 609-611 (2017) - [j34]André Scholz, Uwe Becker, Alexander Fay:
Modellbasierte Inbetriebnahme und online-Konfiguration von Gebäudeautomationssystemen. Autom. 65(9): 660-667 (2017) - [j33]Erik Wassermann, Alexander Fay:
Test- und Verifikationsverfahren für Agentensysteme - Status Quo und weitere Herausforderungen. Autom. 65(11): 721-736 (2017) - [j32]Mariagrazia Dotoli, Alexander Fay, Marek Miskowicz, Carla Seatzu:
Advanced control in factory automation: a survey. Int. J. Prod. Res. 55(5): 1243-1259 (2017) - [c92]Suthida Thongnuch, Alexander Fay:
A practical simulation model generation for virtual commissioning. AIM 2017: 1077-1082 - [c91]André Scholz, Constantin Hildebrandt, Alexander Fay:
Functional modelling in production engineering workflows. CASE 2017: 695-700 - [c90]Constantin Hildebrandt, Matthias Glawe, Andreas W. Müller, Alexander Fay:
Reasoning on Engineering Knowledge: Applications and Desired Features. ESWC (2) 2017: 65-78 - [c89]Pouria Ghobadi Bigvand, Alexander Fay:
Optimal path-finding in a context-aware workflow support system for process and automation engineering of plants. ETFA 2017: 1-8 - [c88]Henry Bloch, Alexander Fay, Torsten Knohl, Mario Hoernicke, Jens Bernshausen, Stephan Hensel, Anna Hahn, Leon Urbas:
A microservice-based architecture approach for the automation of modular process plants. ETFA 2017: 1-8 - [c87]Constantin Hildebrandt, André Scholz, Alexander Fay, Tizian Schroder, Thomas Hadlich, Christian Diedrich, Martin Dubovy, Christian Eck, Ralf Wiegand:
Semantic modeling for collaboration and cooperation of systems in the production domain. ETFA 2017: 1-8 - [c86]Xuan Luu Hoang, Alexander Fay, Philipp Marks, Michael Weyrich:
Generation and impact analysis of adaptation options for automated manufacturing machines. ETFA 2017: 1-8 - [c85]Philipp Marks, Michael Weyrich, Xuan Luu Hoang, Alexander Fay:
Agent-based adaptation of automated manufacturing machines. ETFA 2017: 1-8 - [c84]Pouria Ghobadi Bigvand, Alexander Fay:
A workflow support system for the process and automation engineering of production plants. ICIT 2017: 1118-1123 - [c83]Christopher Haubeck, Winfried Lamersdorf, Alexander Fay:
A Knowledge Carrying Service-Component Architecture for Smart Cyber Physical Systems - An Example Based on Self-documenting Production Systems. ICSOC Workshops 2017: 270-282 - [c82]Marcus Lewin, Sebastian Voigtlander, Alexander Fay:
Method for process modelling and analysis with regard to the requirements of Industry 4.0: An extension of the value stream method. IECON 2017: 3957-3962 - [c81]Marcus Lewin, Helmut Weber, Alexander Fay:
Optimization of Production-Oriented Logistics Processes Through Camera-Based Identification and Localization for Cyber-Physical Systems. APMS (1) 2017: 168-176 - [c80]Timo Busert, Aljosha Köcher, Robert Julius, Alexander Fay:
Automaton-on-Tag: An Approach for an RFID-Driven Production Control with Mealy Machines Stored on an RFID Tag. APMS (1) 2017: 177-184 - [c79]Erik Wassermann, Alexander Fay:
Interoperability rules for heterogenous multi-agent systems: Levels of conceptual interoperability model applied for multi-agent systems. INDIN 2017: 89-95 - [c78]Christopher Haubeck, Alexander Pokahr, Winfried Lamersdorf, Abhishek Chakraborty, Jan Ladiges, Alexander Fay:
Evolution of cyber-physical production systems supported by community-enabled experiences. INDIN 2017: 867-874 - [c77]Henry Bloch, Alexander Fay, Torsten Knohl, Stephan Hensel, Anna Hahn, Leon Urbas, Sachari Wassilew, Jens Bernshausen, Mario Hoernicke, Axel Haller:
Model-based engineering of CPPS in the process industries. INDIN 2017: 1153-1159 - [c76]Nils Loose, Sebastian Törsleff, Christian Derksen, Rainer Unland, Alexander Fay:
Hardware Integration and Real-Time Control in an Agent-Based Distribution Grid Simulation. PAAMS 2017: 329-332 - 2016
- [j31]Xuan Luu Hoang, Esteban Arroyo, Alexander Fay:
Automatische Analyse und Erkennung graphischer Inhalte von SVG-basierten Engineering-Dokumenten. Autom. 64(2): 133-146 (2016) - [j30]Matthias Glawe, Alexander Fay:
Wissensbasiertes Engineering automatisierter Anlagen unter Verwendung von AutomationML und OWL. Autom. 64(3): 186-198 (2016) - [j29]Michelle Günther, Patrick Diekhake, André Scholz, Philipp Puntel Schmidt, Uwe Becker, Alexander Fay:
Durchgängiges modellbasiertes Engineering von Gebäudeautomationssystemen. Autom. 64(6): 490-499 (2016) - [j28]Esteban Arroyo, Mario Hoernicke, Pablo Rodríguez Carrion, Alexander Fay:
Automatic derivation of qualitative plant simulation models from legacy piping and instrumentation diagrams. Comput. Chem. Eng. 92: 112-132 (2016) - [c75]Pouria Ghobadi Bigvand, Alexander Fay, Rainer Drath, Pablo Rodríguez Carrion:
Concept and development of a semantic based data hub between process design and automation system engineering tools. ETFA 2016: 1-8 - [c74]Henry Bloch, Alexander Fay, Mario Hoernicke:
Analysis of service-oriented architecture approaches suitable for modular process automation. ETFA 2016: 1-8 - [c73]Damian Eduardo Diaz Fuentes, Uwe Becker, Patrick Diekhake, Michelle Günther, André Scholz, Philipp Puntel Schmidt, Alexander Fay:
Evaluation and simulation of building automation systems based on their AutomationML description. ETFA 2016: 1-6 - [c72]Michelle Günther, André Scholz, Philipp Puntel Schmidt, Alexander Fay, Patrick Diekhake, Damian Eduardo Diaz Fuentes, Uwe Becker:
Requirements engineering and modelling for building automation systems. ETFA 2016: 1-8 - [c71]Xuan Luu Hoang, Alexander Fay, Philipp Marks, Michael Weyrich:
Systematization approach for the adaptation of manufacturing machines. ETFA 2016: 1-4 - [c70]Sachari Wassilew, Leon Urbas, Jan Ladiges, Alexander Fay, Thomas Holm:
Transformation of the NAMUR MTP to OPC UA to allow plug and produce for modular process automation. ETFA 2016: 1-9 - [c69]Christopher Tebbe, Karl-Heinz Niemann, Alexander Fay:
Ontology and life cycle of knowledge for ICS security assessments. ICS-CSR 2016 - [c68]Birgit Vogel-Heuser, Alexander Fay, Ina Schaefer, Matthias Tichy:
Evolution of software in automated production systems: challenges and research directions. Software Engineering 2016: 107-108 - 2015
- [j27]Philipp Puntel Schmidt, Alexander Fay, Willi Riediger, Thomas Schulte, Fabian Köslin, Stephan Diehl:
Validierung von Steuerungscode mit Hilfe automatisch generierter Simulationsmodelle. Autom. 63(2): 111-120 (2015) - [j26]Alexander Fay, Georg Frey, Jan Lunze:
Abschied von Prof. Dr.-Ing. habil. Lothar Litz. Autom. 63(11): 937-938 (2015) - [j25]Alexander Fay:
Regelungstechnisches Kolloquium in Boppard. Autom. 63(12): 992-993 (2015) - [j24]Christian Derksen, Tobias Linnenberg, Rainer Unland, Alexander Fay:
Structure and classification of unified energy agents as a base for the systematic development of future energy grids. Eng. Appl. Artif. Intell. 41: 310-324 (2015) - [j23]Alexander Fay, Birgit Vogel-Heuser, Timo Frank, Karin Eckert, Thomas Hadlich, Christian Diedrich:
Enhancing a model-based engineering approach for distributed manufacturing automation systems with characteristics and design patterns. J. Syst. Softw. 101: 221-235 (2015) - [j22]Birgit Vogel-Heuser, Alexander Fay, Ina Schaefer, Matthias Tichy:
Evolution of software in automated production systems: Challenges and research directions. J. Syst. Softw. 110: 54-84 (2015) - [j21]Philipp Puntel Schmidt, Alexander Fay:
Potential of Dynamically Adaptable Simulation Models for Virtual Commissioning. Simul. Notes Eur. 25(2): 59-68 (2015) - [c67]Tobias Linnenberg, Alexander Fay, Michael Kaisers:
Bottom-Up Demand Response by Following Local Energy Generation Voluntarily. AAAI 2015: 4282-4283 - [c66]Thomas Holm, Michael Obst, Alexander Fay, Leon Urbas, Ulrich Hempen, Thomas Albers, Sven Kreft:
Engineering method for the integration of modules into fast evolving production systems in the process industry. CASE 2015: 1042-1047 - [c65]Esteban Arroyo, Xuan Luu Hoang, Alexander Fay:
Automatic detection and recognition of structural and connectivity objects in SVG-coded engineering documents. ETFA 2015: 1-8 - [c64]Mario Hoernicke, Alexander Fay, Mike Barth:
Virtual plants for brown-field projects. ETFA 2015: 1-8 - [c63]Michael Obst, Thomas Holm, Leon Urbas, Alexander Fay, Sven Kreft, Ulrich Hempen, Thomas Albers:
Semantic description of process modules. ETFA 2015: 1-8 - [c62]Maik Riedel, Esteban Arroyo, Alexander Fay:
Knowledge-based selection of principle solutions for sensors and actuators based on standardized plant description and semantic concepts. ETFA 2015: 1-8 - [c61]Philipp Puntel Schmidt, Alexander Fay:
Transformation of continuous simulation models of automated manufacturing systems into discrete event models on different levels of detail. ETFA 2015: 1-5 - [c60]Matthias Glawe, Christopher Tebbe, Alexander Fay, Karl-Heinz Niemann:
Knowledge-based Engineering of Automation Systems using Ontologies and Engineering Data. KEOD 2015: 291-300 - [c59]Jan Ladiges, Alexander Fulber, Esteban Arroyo, Alexander Fay, Christopher Haubeck, Winfried Lamersdorf:
Learning material flow models for manufacturing plants from data traces. INDIN 2015: 294-301 - [c58]Birgit Vogel-Heuser, Stefan Feldmann, Jens Folmer, Jan Ladiges, Alexander Fay, Sascha Lity, Matthias Tichy, Matthias Kowal, Ina Schaefer, Christopher Haubeck, Winfried Lamersdorf, Timo Kehrer, Sinem Getir, Mattias Ulbrich, Vladimir Klebanov, Bernhard Beckert:
Selected challenges of software evolution for automated production systems. INDIN 2015: 314-321 - [c57]Jan Ladiges, Alexander Fay, Christopher Haubeck, Winfried Lamersdorf, Sascha Lity, Ina Schaefer:
Supporting commissioning of production plants by model-based testing and model learning. ISIE 2015: 606-611 - [c56]Sebastian Schröck, Alexander Fay, Tobias Jäger:
Systematic interdisciplinary reuse within the engineering of automated plants. SysCon 2015: 508-515 - [c55]Lars Dürkop, Jürgen Jasperneite, Alexander Fay:
An analysis of real-time ethernets with regard to their automatic configuration. WFCS 2015: 1-8 - 2014
- [j20]Frank Schumacher, Alexander Fay:
Petrinetzmodell für die Formalisierung von GRAFCET-Spezifikationen. Autom. 62(6): 385-393 (2014) - [j19]Jan Ladiges, Christopher Haubeck, Alexander Fay, Winfried Lamersdorf:
Evolution Management of Production Facilities by Semi-Automated Requirement Verification. Autom. 62(11): 781-793 (2014) - [j18]Jan Ladiges, Alexander Fay, Christopher Haubeck, Winfried Lamersdorf:
Semi-automated decision making support for undocumented evolutionary changes. Softwaretechnik-Trends 34(2) (2014) - [c54]Esteban Arroyo, Alexander Fay, Moncef Chioua, Mario Hoernicke:
Integrating plant and process information as a basis for automated plant diagnosis tasks. ETFA 2014: 1-8 - [c53]Christopher Haubeck, Winfried Lamersdorf, Jan Ladiges, Alexander Fay:
An active service-component architecture to enable self-awareness of evolving production systems. ETFA 2014: 1-8 - [c52]Christopher Haubeck, Winfried Lamersdorf, Jan Ladiges, Alexander Fay, Julia Fuchs, Christoph Legat, Birgit Vogel-Heuser:
Interaction of model-driven engineering and signal-based online monitoring of production systems: Towards Requirement-aware evolution. IECON 2014: 2571-2577 - [c51]Christopher Haubeck, Jan Ladiges, Winfried Lamersdorf, Alexander Fay:
Behandlung unbekannter Änderungen in automatisierten Produktionsprozessen anhand von Wissensmodellen. Software Engineering (Workshops) 2014: 2-3 - 2013
- [j17]Timo Frank, Karin Eckert, Thomas Hadlich, Alexander Fay, Christian Diedrich, Birgit Vogel-Heuser:
Erweiterung des V-Modells® für den Entwurf von verteilten Automatisierungssystemen. Autom. 61(2): 79-91 (2013) - [j16]Tobias Jäger, Lars Christiansen, Martin Strube, Alexander Fay:
Durchgängiges Engineering von der Anforderungserhebung bis zur Anlagenstrukturbeschreibung. Autom. 61(2): 92-102 (2013) - [j15]Christian Diedrich, Alexander Fay:
Engineering. Autom. 61(6): 379-381 (2013) - [j14]Christopher Haubeck, Ireneus Wior, Lars Braubach, Alexander Pokahr, Jan Ladiges, Alexander Fay, Winfried Lamersdorf:
Keeping Pace with Changes - Towards Supporting Continuous Improvements and Extensive Updates in Manufacturing Automation Software. Electron. Commun. Eur. Assoc. Softw. Sci. Technol. 56 (2013) - [c50]Jan Ladiges, Alexander Fay, Christopher Haubeck, Winfried Lamersdorf:
Operationalized definitions of non-functional requirements on automated production facilities to measure evolution effects with an automation system. ETFA 2013: 1-6 - [c49]Frank Schumacher, Sebastian Schröck, Alexander Fay:
Tool support for an automatic transformation of GRAFCET specifications into IEC 61131-3 control code. ETFA 2013: 1-4 - [c48]Ireneus Wior, Mohsen Mirza Aligoudarzi, Alexander Fay, Daniel Görges, Steven Liu:
Control design for nodes in decentralized traffic networks with delayed traffic information. ETFA 2013: 1-6 - [c47]Ireneus Wior, Jan Ladiges, Esteban Arroyo, Alexander Fay:
First steps from a traffic node to traffic networks - Modeling and stability. ETFA 2013: 1-4 - [c46]Tobias Linnenberg, Andreas W. Mueller, Lars Christiansen, Christian Seitz, Alexander Fay:
OntoENERGY - A Lightweight Ontology for Supporting Energy-efficiency Tasks - Enabling Generic Evaluation of Energy Efficiency in the Engineering Phase of Automated Manufacturing Plants. KEOD 2013: 337-344 - [c45]Alexander Fay, Stefan Biffl, Dietmar Winkler, Rainer Drath, Mike Barth:
A method to evaluate the openness of automation tools for increased interoperability. IECON 2013: 6844-6849 - [c44]Sebastian Schröck, Florian Zimmer, Thomas Holm, Alexander Fay, Tobias Jäger:
Principles, viewpoints and effect links in the engineering of automated plants. IECON 2013: 6940-6945 - [c43]Tobias Linnenberg, Ireneus Wior, Alexander Fay:
Analysis of potential instabilities in agent-based smart grid control systems. IECON 2013: 7422-7427 - [c42]Jan Ladiges, Ireneus Wior, Esteban Arroyo, Alexander Fay, Christopher Haubeck, Winfried Lamersdorf:
Evolution of production facilities and its impact on non-functional requirements. INDIN 2013: 224-229 - [c41]Christian Derksen, Tobias Linnenberg, Rainer Unland, Alexander Fay:
Unified Energy Agents as a Base for the Systematic Development of Future Energy Grids. MATES 2013: 236-249 - [c40]Frank Schumacher, Sebastian Schröck, Alexander Fay:
Transforming Hierarchical Concepts of GRAFCET into a Suitable Petri Net Formalism. MIM 2013: 295-300 - [c39]Birgit Vogel-Heuser, Christian Diedrich, Alexander Fay, Peter Göhner:
Anforderungen an das Software-Engineering in der Automatisierungstechnik. Software Engineering 2013: 51-66 - [c38]Thomas Holm, Sebastian Schröck, Alexander Fay, Tobias Jäger, Ulrich Löwen:
Engineering von "Mechatronik und Software" in automatisierten Anlagen: Anforderungen und Stand der Technik. Software Engineering (Workshops) 2013: 261-272 - 2012
- [j13]Ireneus Wior, Alexander Fay:
Systemdynamische Konsequenzen von Mauterhebung und anderen Eingriffen in den Verkehr. Autom. 60(4): 194-201 (2012) - [j12]Eike Schulz, Josef Paul, Sebastian Schreiber, Alexander Fay:
A Discrete-event Modeling of ARGESIM Benchmark C20 'Complex Production System' using Flexsim Simulation Software. Simul. Notes Eur. 22(1): 55-60 (2012) - [j11]Markus Göring, Alexander Fay:
Modellierung von Veränderungen in hierarchischen Strukturmodellen automatisierter Anlagen. Softwaretechnik-Trends 32(2) (2012) - [c37]Tobias Jäger, Alexander Fay, Thomas Wagner, Ulrich Löwen:
Comparison of engineering results within domain specific languages regarding information contents and intersections. SSD 2012: 1-6 - [c36]Timo Frank, Thomas Hadlich, Karin Eckert, Alexander Fay, Christian Diedrich, Birgit Vogel-Heuser:
Using contact points to integrate discipline spanning real-time requirements in modeling Networked Automation Systems for manufacturing systems. CASE 2012: 851-856 - [c35]Mike Barth, Rainer Drath, Alexander Fay, Florian Zimmer, Karin Eckert:
Evaluation of the openness of automation tools for interoperability in engineering tool chains. ETFA 2012: 1-8 - [c34]Karin Eckert, Alexander Fay, Thomas Hadlich, Christian Diedrich, Timo Frank, Birgit Vogel-Heuser:
Design patterns for distributed automation systems with consideration of non-functional requirements. ETFA 2012: 1-9 - [c33]Markus Göring, Alexander Fay:
Modeling change and structural dependencies of automation systems. ETFA 2012: 1-8 - [c32]Thomas Hadlich, Stephan Home, Christian Diedrich, Karin Eckert, Timo Frank, Alexander Fay, Birgit Vogel-Heuser:
Time as non-functional requirement in distributed control systems. ETFA 2012: 1-6 - [c31]Thomas Holm, Lars Christiansen, Markus Göring, Tobias Jäger, Alexander Fay:
ISO 15926 vs. IEC 62424 - Comparison of plant structure modeling concepts. ETFA 2012: 1-8 - [c30]Markus Göring, Alexander Fay:
Automation systems - Formal modeling of temporal change of physical structure. IECON 2012: 6160-6165 - [c29]Timo Frank, Karin Eckert, Thomas Hadlich, Alexander Fay, Christian Diedrich, Birgit Vogel-Heuser:
Workflow and decision support for the design of distributed automation systems. INDIN 2012: 293-299 - [c28]Eugen Reiswich, Alexander Fay:
Strategy for the amendment of plant information models by means of OPC UA. INDIN 2012: 495-501 - [p2]Thomas Wagner, Jan Christoph Wehrstedt, Ulrich Löwen, Tobias Jäger, Alexander Fay, Peter Schuller:
Application and Evaluation in the Automation Domain. Model-Based Engineering of Embedded Systems 2012: 137-155 - 2011
- [j10]Stefan Runde, Alexander Fay, Stefan Schmitz, Ulrich Epple:
Wissensbasierte Systeme im Engineering der Automatisierungstechnik (Knowledge-Based System for the Engineering of Automation Systems). Autom. 59(1): 42-49 (2011) - [j9]Rainer Drath, Alexander Fay, Mike Barth:
Interoperabilität von Engineering-Werkzeugen. Autom. 59(7): 451- (2011) - [j8]Sebastian Schreiber, Alexander Fay:
ARGESIM Benchmark C20 'Complex Production System' - Definition and Call. Simul. Notes Eur. 21(3-4): 181-190 (2011) - [j7]Stefan Runde, Alexander Fay:
Software Support for Building Automation Requirements Engineering - An Application of Semantic Web Technologies in Automation. IEEE Trans. Ind. Informatics 7(4): 723-730 (2011) - [c27]Lars Christiansen, Alexander Fay, Bernd Opgenoorth, Jörg Neidig:
Improved diagnosis by combining structural and process knowledge. ETFA 2011: 1-8 - [c26]Karin Eckert, Timo Frank, Thomas Hadlich, Alexander Fay, Birgit Vogel-Heuser, Christian Diedrich:
Typical automation functions and their distribution in automation systems. ETFA 2011: 1-8 - [c25]Alexander Fay, Thomas Wagner, Ulrich Löwen:
Mining technical dependencies throughout engineering process knowledge. ETFA 2011: 1-7 - [c24]Matthias Foehr, Arndt Lüder, Thomas Wagner, Alexander Fay, Tobias Jäger:
Development of a method to analyze the impact of manufacturing systems engineering on product quality. ETFA 2011: 1-4 - [c23]Timo Frank, Martin Merz, Karin Eckert, Thomas Hadlich, Birgit Vogel-Heuser, Alexander Fay, Christian Diedrich:
Dealing with non-functional requirements in distributed control systems engineering. ETFA 2011: 1-4 - [c22]Ingmar Kühl, Alexander Fay:
A middleware for software evolution of automation software. ETFA 2011: 1-9 - [c21]Tobias Linnenberg, Ireneus Wior, Sebastian Schreiber, Alexander Fay:
A market-based multi-agent-system for decentralized power and grid control. ETFA 2011: 1-8 - [c20]Sebastian Schreiber, Alexander Fay:
Requirements for the benchmarking of decentralized manufacturing control systems. ETFA 2011: 1-8 - [c19]Sebastian Schreiber, Alexander Fay:
A reference system for the benchmarking of manufacturing control systems. ETFA 2011: 1-4 - [c18]Frank Schumacher, Alexander Fay:
Requirements and obstacles for the transformation of GRAFCET specifications into IEC 61131-3 PLC programs. ETFA 2011: 1-4 - [c17]Martin Strube, Stefan Runde, Helmut Figalist, Alexander Fay:
Risk minimization in modernization projects of plant automation - A knowledge-based approach by means of semantic web technologies. ETFA 2011: 1-8 - 2010
- [j6]Sebastian Schreiber, Mike Barth, René Nicolaus, Markus Schleburg, Alexander Fay:
Event-based and State-Automata-based Modelling of FMS. Simul. Notes Eur. 20(1): 38-44 (2010) - [c16]Ingmar Kühl, Alexander Fay:
Towards common concepts of remote services. ETFA 2010: 1-8 - [c15]Stefan Runde, Achim Heidemann, Alexander Fay, Peer Schmidt:
Engineering of building automation systems - State-of-the-art, deficits, approaches. ETFA 2010: 1-8
2000 – 2009
- 2009
- [j5]Alexander Ulrich, Knut Güttel, Alexander Fay:
Durchgängige Prozesssicht in unterschiedlichen Domänen - Methoden und Werkzeug zum Einsatz der formalisierten Prozessbeschreibung (Universal View on Processes in Different Domains - Methods and Tool for Formalised Process Descriptions). Autom. 57(2): 80-92 (2009) - [c14]Ingmar Kühl, Alexander Fay:
Reusable and Flexible Design of Communication Gateways. ETFA 2009: 1-9 - [c13]Stefan Runde, Henrik Dibowski, Alexander Fay, Klaus Kabitzsch:
A Semantic Requirement Ontology for the Engineering of Building Automation Systems by means of OWL. ETFA 2009: 1-8 - [c12]Stefan Runde, Alexander Fay, Wagner-Otto Wutzke:
Knowledge-based Requirement-Engineering of building automation systems by means of Semantic Web technologies. INDIN 2009: 267-272 - 2008
- [j4]Alexander Fay:
IEEE-Konferenz "Emerging Technologies & Factor Automation" in Hamburg. Autom. 56(3): 166-168 (2008) - [j3]Alexander Fay, Stefan Jerenz, Nando Seitz:
Dezentrale Steuerung von Transportsystemen in Analogie zum Routing in Datennetzen (Decentralized Control of Transport Systems based on Data Routing Mechanisms). Autom. 56(6): 284-295 (2008) - [c11]Stefan Runde, Alexander Fay:
A data exchange format for the engineering of building automation systems. ETFA 2008: 303-310 - [c10]Sven Mandel, Thomas Bär, Alexander Fay:
Concept for proactive ramp-up validation of body-in-white lines. ETFA 2008: 693-696 - [c9]Knut Güttel, Peter Weber, Alexander Fay:
Automatic generation of PLC code beyond the nominal sequence. ETFA 2008: 1277-1284 - [c8]Sebastian Beez, Alexander Fay, Nina F. Thornhill:
Automatic generation of bond graph models of process plants. ETFA 2008: 1294-1301 - [c7]Alexander Fay, Stefan Jerenz, Frank Schumacher:
Decentralized routing control for guided transportation systems. ETFA 2008: 1481-1487 - [c6]Stefan Runde, Henrik Dibowski, Alexander Fay, Klaus Kabitzsch:
Integrated automated design approach for building automation systems. ETFA 2008: 1488-1495 - 2007
- [c5]Till Schmidberger, Alexander Fay:
A rule format for industrial plant information reasoning. ETFA 2007: 360-367 - [c4]Sebastian Schreiber, Till Schmidberger, Alexander Fay, Jörg May, Jörn Drewes, Eckehard Schnieder:
UML-based safety analysis of distributed automation systems. ETFA 2007: 1069-1075 - 2005
- [j2]Alexander Fay:
Engineering in vernetzten, offenen, durchgängigen Systemen (Engineering in Linked and Open Systems). Autom. 53(4-5): 205-210 (2005) - [j1]Alexander Fay:
Lothar Litz: Grundlagen der Automatisierungstechnik: Regelungssysteme - Steuerungssysteme - Hybride Systeme. Autom. 53(6): 288 (2005) - [p1]Alexander Fay:
XML for the Exchange of Automation Project Information. The Industrial Information Technology Handbook 2005 - 2003
- [c3]Heinz W. Schmidt, Ian D. Peake, Jue Xie, Ian E. Thomas, Bernd J. Krämer, Alexander Fay, Peter Bort:
Modelling Predictable Component-Based Distributed Control Architectures. WORDS Fall 2003: 339-346 - 2002
- [c2]Ivo Fischer, Alexander Fay:
Simulation of Autonomous DCVS for Baggage Handling at Airports. ESM 2002: 381-384 - 2001
- [c1]Alexander Fay, Rainer Drath, Peter Bort:
Design and implementation of a Java-based industrial control system configuration tool. ETFA (2) 2001: 553-558
1990 – 1999
- 1999
- [b1]Alexander Fay:
Wissensbasierte Entscheidungsunterstützung für die Disposition im Schienenverkehr: eine Anwendung von Fuzzy-Petrinetzen. Braunschweig University of Technology, Germany, VDI-Verlag 1999, ISBN 978-3-18-338612-3, pp. 1-164
Coauthor Index
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