@inproceedings{46493, author = {{Weller, Julian and Roesmann, Daniel and Eggert, Sönke and von Enzberg, Sebastian and Gräßler, Iris and Dumitrescu, Roman}}, booktitle = {{Procedia CIRP}}, issn = {{2212-8271}}, pages = {{514--520}}, publisher = {{Elsevier BV}}, title = {{{Identification and prediction of standard times in machining for precision steel tubes through the usage of data analytics}}}, doi = {{10.1016/j.procir.2023.01.011}}, volume = {{119}}, year = {{2023}}, } @inbook{45110, author = {{Gräßler, Iris and Steffen, Eckhard and Maier, Günter W. and Roesmann, Daniel}}, booktitle = {{The Digital Twin of Humans}}, editor = {{Gräßler, Iris and Maier, Günter W. and Steffen, Eckhard and Roesmann, Daniel}}, isbn = {{9783031261039}}, pages = {{3--10}}, publisher = {{Springer International Publishing}}, title = {{{Introduction—The Digital Twin of Humans}}}, doi = {{10.1007/978-3-031-26104-6_1}}, year = {{2023}}, } @book{45191, editor = {{Gräßler, Iris and Maier, Günter W. and Steffen, Eckhard and Roesmann, Daniel}}, isbn = {{9783031261039}}, publisher = {{Springer International Publishing}}, title = {{{The Digital Twin of Humans}}}, doi = {{10.1007/978-3-031-26104-6}}, year = {{2023}}, } @inbook{45111, author = {{Roesmann, Daniel and Gräßler, Iris}}, booktitle = {{The Digital Twin of Humans}}, isbn = {{9783031261039}}, pages = {{187–203}}, publisher = {{Springer International Publishing}}, title = {{{Integration of Human Factors for Assembly Systems of the Future}}}, doi = {{10.1007/978-3-031-26104-6_9}}, year = {{2023}}, } @inproceedings{34395, author = {{Gräßler, Iris and Hieb, Michael and Roesmann, Daniel and Unverzagt, Marc}}, editor = {{Lohweg, Volker}}, pages = {{95--106}}, publisher = {{Springer Vieweg}}, title = {{{Creating Synthetic Training Data for Machine Vision Quality Gates}}}, doi = {{10.1007/978-3-662-66769-9_7 }}, year = {{2023}}, } @inproceedings{52823, abstract = {{The involvement of human workers is an essential part of the design of production systems. In this context, test scenarios in Virtual Reality are increasingly used to verify the fulfillment of requirements. This paper proposes a procedure for generating virtual test scenarios. The objective is to support human- centered design by means of virtual measurement systems. The procedure involves three steps: selecting relevant human factors in requirements, modeling the virtual test scenario, and carrying out the verification study. The goal is to advance the significance of testing outputs.}}, author = {{Gräßler, Iris and Roesmann, Daniel and Unverzagt, Marc and Pottebaum, Jens}}, booktitle = {{Poster}}, keywords = {{virtual reality, virtual measurement systems, virtual test scenario, human-centered design}}, location = {{Nuremberg}}, pages = {{416--417}}, publisher = {{AMA Service GmbH, Von-Münchhausen-Str. 49, 31515 Wunstorf, Germany}}, title = {{{Virtual Test Scenarios for Human-Centered Design with Virtual Measurement Systems}}}, doi = {{10.5162/smsi2023/p70}}, year = {{2023}}, } @inproceedings{52839, author = {{Gräßler, Iris and Hieb, Michael and Roesmann, Daniel and Unverzagt, Marc and Pottebaum, Jens}}, booktitle = {{SSRN Electronic Journal}}, issn = {{1556-5068}}, keywords = {{General Earth and Planetary Sciences, General Environmental Science}}, publisher = {{Elsevier BV}}, title = {{{Virtual learning environment for teaching the handling of collaborative robots}}}, doi = {{10.2139/ssrn.4471596}}, year = {{2023}}, } @inproceedings{52832, author = {{Weller, Julian and Roesmann, Daniel and Eggert, Sönke and von Enzberg, Sebastian and Gräßler, Iris and Dumitrescu, Roman}}, booktitle = {{Procedia CIRP}}, issn = {{2212-8271}}, keywords = {{General Medicine}}, pages = {{514--520}}, publisher = {{Elsevier BV}}, title = {{{Identification and prediction of standard times in machining for precision steel tubes through the usage of data analytics}}}, doi = {{10.1016/j.procir.2023.01.011}}, volume = {{119}}, year = {{2023}}, } @article{44215, abstract = {{In der zukünftigen Produktion werden der Aufbau und die Entwicklung der Fähigkeiten der Mitarbeiter:innen ein entscheidender Wettbewerbsvorteil von Unternehmen. In menschenzentrierten Montagesystemen passen sich die Mitarbeiter:innen auf der Grundlage von Lernprozessen an neue und sich ändernde Aufgaben an. Dazu muss der Bezug zu den Fähigkeiten der Mitarbeiter:innen im Zuge der integrierten Produkt-und Prozessentwicklung vorgesehen werden. Daher wurde eine Methodik entwickelt, die diese Fähigkeiten explizit abbildet und sie sowohl in der Entwicklung als auch in der kurzfristigen Personaleinsatzplanung bei der Aufgabenzuordnung berücksichtigt. Zur Anwendung wurde die Methodik prototypisch in einem Software-Werkzeug umgesetzt und in Kombination mit einer diskreten ereignisorientierten Simulation erprobt.}}, author = {{Gräßler, Iris and Roesmann, Daniel and Pottebaum, Jens}}, issn = {{2511-0896}}, journal = {{Zeitschrift für wirtschaftlichen Fabrikbetrieb}}, keywords = {{Management Science and Operations Research, Strategy and Management, General Engineering}}, number = {{3}}, pages = {{149--152}}, publisher = {{Walter de Gruyter GmbH}}, title = {{{Human Factors in der integrierten Produktentwicklung}}}, doi = {{10.1515/zwf-2023-1029}}, volume = {{118}}, year = {{2023}}, } @inproceedings{34096, author = {{Gräßler, Iris and Roesmann, Daniel and Hillebrand, Stefan and Pottebaum, Jens}}, booktitle = {{Procedia CIRP ICME}}, issn = {{2212-8271}}, keywords = {{General Medicine}}, location = {{Gulf of Naples}}, pages = {{489--494}}, publisher = {{Elsevier BV}}, title = {{{Information Model for Hybrid Prototyping in Design Reviews of Assembly Stations}}}, doi = {{10.1016/j.procir.2022.09.054}}, volume = {{112}}, year = {{2022}}, } @inproceedings{32147, author = {{Gräßler, I. and Roesmann, Daniel and Pottebaum, Jens and Corves, Burkhard and Mandischer, Nils and Gürtler, Marius}}, booktitle = {{Tagungsband der VDI Mechatronik 2022}}, location = {{Darmstadt}}, pages = {{151--156}}, title = {{{Mensch-Tracking zur Identifizierung des Voranschreitens von Roboterunterstützten Rettungseinsätzen der Feuerwehr}}}, doi = {{10.26083/tuprints-00020963}}, year = {{2022}}, } @inproceedings{34262, author = {{Gräßler, Iris and Hieb, Michael and Roesmann, Daniel}}, booktitle = {{Automation 2022}}, publisher = {{VDI Verlag}}, title = {{{Gestaltung einer Forschungsinfrastruktur für die Anwendung digitaler Werkzeuge in Cyber-Physischen Produktionssystemen}}}, doi = {{10.51202/9783181023990-667}}, year = {{2022}}, } @inproceedings{34101, author = {{Gräßler, Iris and Roesmann, Daniel}}, location = {{Padeborn}}, publisher = {{LibreCat University}}, title = {{{Menschenzentrierte Montageplanung und -steuerung durch fähigkeitsorientierte Aufgabenzuordnung}}}, year = {{2022}}, } @inproceedings{22287, author = {{Gräßler, Iris and Roesmann, Daniel and Cappello, Chiara and Steffen, Eckhard}}, booktitle = {{Procedia CIRP Design}}, editor = {{Lutters, Eric}}, issn = {{2212-8271}}, location = {{Enschede}}, pages = {{433--438}}, publisher = {{Elsevier}}, title = {{{Skill-based worker assignment in a manual assembly line}}}, doi = {{10.1016/j.procir.2021.05.100}}, year = {{2021}}, } @inproceedings{27128, author = {{Gräßler, Iris and Hillebrand, Stefan and Roesmann, Daniel}}, isbn = {{978-9-492-85916-7}}, location = {{Valletta, Malta }}, pages = {{29--36}}, title = {{{Design Review of Assembly Workstations using Virtual Prototypes}}}, year = {{2021}}, } @inproceedings{26866, author = {{Gräßler, Iris and Roesmann, Daniel and Wiechel, Dominik and Preuß, Daniel and Pottebaum, Jens}}, booktitle = {{54th CIRP Conference on Manufacturing Systems}}, location = {{Athens}}, title = {{{Determine similarity of assembly operations using semantic technology}}}, doi = {{https://doi.org/10.1016/j.procir.2021.11.209 }}, year = {{2021}}, } @inproceedings{24080, abstract = {{Challenges of the development of mechatronic systems and corresponding production systems have increased steadily. Changes are primarily due to increased product complexity and the connection to the internet of things and services, enabling Cyber-Physical Systems (CPS) and Cyber-Physical Production Systems (CPPS). Major innovations of the revised VDI guideline 2206 for developing mechatronic systems are systems thinking as a core element and six checkpoints for structuring deliverables along the V-Model. These checkpoints serve for orientation in result progress and thus enable a structured and complete development process. However, tasks and checkpoints of the new guideline focus on the product development itself without integrating the development of related CPPS, enabling optimization simultaneously to system development. Implications are derived by a three-step analysis. The paper at hand contributes fundamental extensions of the checkpoint questions regarding integrated CPPS development. These questions provide methodical support for system developers of CPPS for CPS by enabling the project manager to check the status, schedule further development steps and evaluate the maturity of the whole, integrated development.}}, author = {{Gräßler, Iris and Wiechel, Dominik and Roesmann, Daniel and Thiele, Henrik}}, booktitle = {{Procedia CIRP}}, issn = {{2212-8271}}, keywords = {{Cyber-Physical Production System (CPPS), V-Model, Product System Development, Integrated Development, VDI 2206}}, pages = {{253--258}}, title = {{{V-model based development of cyber-physical systems and cyber-physical production systems}}}, doi = {{10.1016/j.procir.2021.05.119}}, year = {{2021}}, } @inproceedings{24281, abstract = {{In order to optimize production processes and to avoid errors, it is not only necessary to automate processes, but also to integrate workers with their individual personality and skill profiles. For this purpose, human factors should be considered in the entire design process. The integrated view of mental human models, the cognitive demand of the working environment and the automation design is essential. Human-System Integration (HSI) constitutes a promising approach. Current model-based approaches offer possibilities to analyze and optimize tasks within an overall system, but they still lack integration. This leads to the research question: How can human factors be integrated into a system model of a socio-technical, Cyber-Physical Production System? The paper at hand contributes an approach of human factor integration into the procedure of Model-Based Systems Engineering for Cyber-Physical Production Systems (CPPS). The approach combines a system model of a CPPS with HSI concepts. In accordance to the benefits of MBSE, SysML is selected to integrate human factors in the development process of a CPPS. The approach is divided into five steps, which includes the extension of the SysML meta model. This allows the optimization of skill-based human-machine interaction. Defined HSI-Profiles enable system developers to integrate employee requirements at early stages within the development process. The approach is demonstrated by the maintenance of a 3D-Printer as a case example. This research enables system developers to depict individual workers with the help of the developed concepts and systematically integrate them into the development process of a CPPS.}}, author = {{Gräßler, Iris and Wiechel, Dominik and Roesmann, Daniel}}, booktitle = {{Procedia CIRP}}, issn = {{2212-8271}}, pages = {{518--523}}, title = {{{Integrating human factors in the model based development of cyber-physical production systems}}}, doi = {{10.1016/j.procir.2021.05.113}}, year = {{2021}}, } @inproceedings{23401, author = {{Gürtler, Marius and Mandischer, Nils and Hüsing, Mathias and Corves, Burkhard and Pottebaum, Jens and Roesmann, Daniel and Gräßler, Iris}}, booktitle = {{7. IFToMM D-A-CH Konferenz 2021; 18. - 19. Feb. 2021 IFToMM D-A-CH}}, location = {{Universität Duisburg-Essen}}, publisher = {{DuEPublico2 Duisburg-Essen Publications online}}, title = {{{Ein reaktiver Modellierungsansatz für Mensch-Roboter-Kollaboration in Rettungs- und Brandszenarien der Feuerwehr}}}, year = {{2021}}, } @inproceedings{25534, author = {{Gräßler, Iris and Pottebaum, Jens and Roesmann, Daniel and Mandischer, Nils and Gürtler, Marius and Hüsing, Mathias and Corves, Burkhard}}, booktitle = {{Mensch und Computer 2021 - Workshopband}}, editor = {{Wienrich, C. and Wintersberger, P. and Weyers, B.}}, title = {{{Fähigkeitsorientierte Aufgabenzuordnung für die Mensch-Roboter-Kollaboration in sicherheitskritischen Einsatzsituationen}}}, doi = {{10.18420/muc2021-mci-ws08-376}}, year = {{2021}}, }