| | Issue Date | Title | Author(s) | |
| 1 | | 2017 | Zustandsbasierte Führung: Kapselung verfahrenstechnischer Funktionen durch Services | Bloch, Claus Henry ; Hensel, Stephan; Hoernicke, Mario; Stark, Katharina ; Menschner, Anna; Urbas, Leon; Fay, Alexander  ; Knohl, Torsten; Bernshausen, Jens; Haller, Axel |
| 2 | | 2016 | Wissensbasiertes Engineering automatisierter Anlagen unter Verwendung von AutomationML und OWL | Glawe, Matthias ; Fay, Alexander |
| 3 | | 2015 | Wie bekommt Industrie 4.0 Bedeutung?: Normen und Standards als semantische Basis | Fay, Alexander ; Diedrich, Christian; Thron, Mario; Scholz, André ; Puntel Schmidt, Philipp; Ladiges, Jan ; Holm, Thomas |
| 4 |  | 2018 | Vorhandene Standards als semantische Basis für die Anwendung von Industrie 4.0 (SemAnz40): Abschlussbericht | Fay, Alexander ; Diedrich, Christian; Dubovy, Martin; Eck, Christian; Hildebrandt, Constantin ; Scholz, André ; Schröder, Tizian; Wiegand, Ralf |
| 5 | | 2015 | Virtual Plants for Brown-Field Projects: Automated generation of simulation models based on existing engineering data | Hoernicke, Mario; Fay, Alexander ; Barth, Mike |
| 6 | | 2016 | Verteilte Automatisierung hybrider Energiesysteme: Agentensysteme für eine dezentrale Energieversorgung | Törsleff, Sebastian ; Derksen, Christian; Fay, Alexander ; Heldmaier, Wolfram; Linnenberg, Tobias ; Loose, Nils; Ludwig, Marcel; Stötzel, Marcus; Unland, Rainer; Wassermann, Erik ; Zdrallek, Markus |
| 7 | | 2019 | Das vereinheitliche digitale Typenschild: Anforderungen und Konzeption des Informationsmodells | Dogan, Alaettin ; Zhang, Yuanheng ; Fay, Alexander |
| 8 | | 2018 | Using model differencing to reason about observable behavior changes of manufacturing systems | Pietsch, Christopher; Kelter, Udo; Haubeck, Christopher; Lamersdorf, Wilfried; Chakraborty, Abhishek ; Fay, Alexander |
| 9 | | 2013 | Unified Energy Agents as a Base for the Systematic Development of Future Energy Grids | Derksen, Christian; Linnenberg, Tobias ; Unland, Rainer; Fay, Alexander |
| 10 | | 2013 | Transforming time constraints of a GRAFCET graph into a suitable Petri net formalism | Schumacher, Frank ; Fay, Alexander |
| 11 | | 2023 | Transformation von GRAFCET in GAL auf Basis eines ausführlichen Metamodells zur Verifikation von Entwurfsfehlern | Schnakenbeck, Aron ; Mroß, Robin; Völker, Marcus; Kowalewski, Stefan; Fay, Alexander |
| 12 | | 2016 | Transformation of the NAMUR MTP to OPC UA to allow plug and produce for modular process automation | Wassilew, Sachari; Urbas, Leon; Ladiges, Jan ; Fay, Alexander ; Holm, Thomas |
| 13 | | 2015 | Transformation of continuous simulation models of automated manufacturing systems into discrete event models on different levels of detail | Puntel Schmidt, Philipp; Fay, Alexander |
| 14 | | 2016 | Topologiemodelle in AutomationML: Grundlage für die Automatisierung der Automatisierung | Hoernicke, Mario; Messinger, Christian; Arroyo Esquivel, Esteban ; Fay, Alexander |
| 15 | | 2013 | Tool support for an automatic transformation of GRAFCET specifications into IEC 61131-3 control code | Schumacher, Frank ; Schröck, Sebastian; Fay, Alexander |
| 16 | | 2016 | Systematization approach for the adaptation of manufacturing machines | Hoang, Xuan Luu ; Fay, Alexander ; Marks, Philipp; Weyrich, Michael |
| 17 | | 2016 | Systematic reuse of interdisciplinary components supported by engineering relations | Schröck, Sebastian; Zimmer, Florian; Fay, Alexander ; Jäger, Tobias |
| 18 | | 2015 | Systematic interdisciplinary reuse within the engineering of automated plants | Schröck, Sebastian; Fay, Alexander ; Jäger, Tobias |
| 19 | | 2015 | Supporting plant disturbance analysis by dynamic causal digraphs and propagation look-up tables | Arroyo, Esteban ; Fay, Alexander ; Chioua, Moncef; Hoernicke, Mario |
| 20 | | 2015 | Supporting Commissioning of Production Plants by Model-Based Testing and Model Learning | Ladiges, Jan ; Fay, Alexander ; Haubeck, Christopher; Lamersdorf, Winfried; Lity, Sascha; Schaefer, Ina |
