Zusammenfassung
Die Digitalisierung führt zu einem grundlegenden Wandel der industriellen Produktion und bringt neue Herausforderungen mit sich, in deren Umgang Mitarbeitende in der produzierenden Industrie geschult werden müssen. Ein Planspiel des Fraunhofer-Instituts für Produktionstechnik und Automatisierung (IPA) unterstützt diesen Veränderungsprozess, von der Lean Production hin zur Digitalisierung in der Produktion, durch eine spielbasierte Qualifikation.
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Literatur
Abele E, Chryssolouris G, Sihn W, Metternich J (2017) Learning factories for future oriented research and education in manufacturing. CIRP Annals, London, S 803–826
Bauer D, Wutzke R, Bauernhansl T (2016) Wear@Work – a new approach for data acquisition using wearables. Proc CIRP 50:529–534. https://doi.org/10.1016/j.procir.2016.04.121
Bauer D, Stock D, Bauernhansl T (2017) Movement towards service-orientation and app-orientation in manufacturing IT. Proc CIRP 62:199–204. https://doi.org/10.1016/j.procir.2016.06.079
Bauer W, Hämmerle M, Bauernhansl T, Zimmermann T (2019) Future work lab – the workplace of the future. In: Neugebauer R (Hrsg) Digital transformation (in print). Springer, Berlin, Heidelberg, S 179–195
Bauernhansl T (2017) Die Vierte Industrielle Revolution – Der Weg in ein wertschaffendes Produktionsparadigma. In: Vogel-Heuser B, Bauernhansl T, ten Hompel M (Hrsg) Handbuch Industrie 4.0. Bd. 4: Allgemeine Grundlagen. Springer Vieweg, Berlin, S 1–31
Bauernhansl T, Hörcher G, Bressner M, Röhm M (2018) MANUFUTURE-DE: identification of priority research topics for the sustainable development of european research programmes for the manufacturing industry until 2030. Fraunhofer IPA. http://publica.fraunhofer.de/eprints/urn_nbn_de_0011-n-5320156.pdf. Zugegriffen am 06.04.2019
Bitkom Research (2016) Welche Hemmnisse sehen Sie beim Einsatz von Industrie-4.0-Anwendungen in Ihrem Unternehmen? https://de.statista.com/statistik/daten/studie/539250/umfrage/hemmnisse-beim-einsatz-von-industrie-40-in-deutschland/. Zugegriffen am 18.03.2019
Blöchl SJ, Schneider M (2016) Simulation game for intelligent production logistics – the PuLL® learning factory. Proc CIRP 54:130–135. https://doi.org/10.1016/j.procir.2016.04.100
Blöchl SJ, Michalicki M, Schneider M (2017) Simulation game for lean leadership – shopfloor management combined with accounting for lean. In: Metternich J, Glass R (Hrsg) 7th Conference on learning factories, CLF 2017, Darmstadt, S 97–105
Böhm M, Leipoldt C (2018) Planspiel Logistikprozesse. http://publica.fraunhofer.de/documents/N-525658.html. Zugegriffen am 18.03.2019
Dombrowski U, Richter T, Krenkel P (2017) Interdependencies of Industrie 4.0 & lean production systems: a use cases analysis. In: 27th international conference on flexible automation and intelligent manufacturing, Modena, S 1061–1068
Dregger J, Niehaus J, Ittermann P, Hirsch-Kreinsen H, Hompel M ten (2018) Challenges for the future of industrial labor in manufacturing and logistics using the example of order picking systems. In: 11th CIRP conference on intelligent computation in manufacturing engineering, Gulf of Naples, S 140–143
Fuhrmann M, Frank D, Falk B, Schmitt R (2016) Improving a game-based education tool for quality management in production networks. Proc CIRP 41:692–696. https://doi.org/10.1016/j.procir.2015.12.085
Götz B, Schel D, Bauer D, Henkel C, Einberger P, Bauernhansl T (2018) Challenges of production microservices. Proc CIRP 67:167–172. https://doi.org/10.1016/j.procir.2017.12.194
Gross E (2018) Produktionsoptimierung im Shopfloor – planspiel LIFE! http://lf.iff.uni-stuttgart.de/planspiel/. Zugegriffen am 18.03.2019
Hidayatno A, Moeis AO, Raditya R (2014) Development of simulation game for teaching strategic and operational aspect of production system. In: International conference on industrial engineering and operations management, Bali
Huang P (2002) Promoting wearable computing. In: Jin Q (Hrsg) Enabling society with information technology. Springer, Tokyo, S 367–376
Hübl A, Fischer G (2017) Simulation-based business game for teaching methods in logistics and production. In: IEEE Press Piscataway (Hrsg) Proceedings of the 2017 winter simulation conference, December 3–6, 2017, Las Vegas, NV. Omnipress, Madison, S 4228–4239
Leyer M, Richter A, Steinhüser M (2019) Power to the workers. Int J Op Prod Manage 39:24–42. https://doi.org/10.1108/IJOPM-05-2017-0294
Luckham DC (2010) The power of events; An introduction to complex event processing in distributed enterprise systems. Addison-Wesley, Boston
Makeblock Co., Ltd (2021) mBot. https://www.makeblock.com/mbot-3. Zugegriffen am 09.08.2021
Mann S (1998) Humanistic computing: „wearcomp“ as a new framework and applicationfor intelligent signal processing. Proc IEE 86:2123–2151
Mrugalska B, Wyrwicka MK (2017) Towards lean production in Industry 4.0. In: 7th international conference on engineering, project, and production management, Bialystok, S 466–473
Neugebauer R (Hrsg) (2019) Digital transformation (in print). Springer, Berlin/Heidelberg
Perini S, Luglietti R, Margoudi M, Oliveira M, Taisch M (2017) Training advanced skills for sustainable manufacturing: a digital serious game. In: 27th international conference on flexible automation and intelligent manufacturing, Modena, S 1536–1543
Pittich D, Tenberg R, Lensing K (2019) Learning factories for complex competence acquisition. Eur J Eng Educ 4:196–213
Pivec M, Dziabenko O (2005) Game-based learning in universities and lifelong learning: „unigame: social skills and knowledge training“ game concept. In: Brummer R (Hrsg) The journal of universal computer science. Springer, Graz, S 14–26
Prensky M (2003) Digital game-based learning. Comput Entertain 1:21. https://doi.org/10.1145/950566.950596
Seibl F, Theoba C (2017) Industrie 4.0: MES – prerequisite for digital operation and production management. ZVEI. https://www.zvei.org/fileadmin/user_upload/Presse_und_Medien/Publikationen/2017/August/MES_-_Prerequisite_for_Digital_OPeration/ZVEI-Positionspapier-MES-Prerequisite-for-Digital-Operation-and-Production-Management.pdf. Zugegriffen am 12.04.2019
Silberman ML (2009) Active learning; 101 strategies to teach any subject. Allyn and Bacon, Boston
Silva ID, Xambre AR, Lopes RB (2013) A simulation game framework for teaching lean production. Int J Ind Eng Manage 4:81–86
Tamaas A (2014) Planspiel „S-PluS“. http://publica.fraunhofer.de/documents/N-283608.html. Zugegriffen am 18.03.2019
Urbach N, Ahlemann F (2016) Entwicklung und Betrieb nicht entscheidend – Das IT-Management folgt dem Paradigma „Innovate-Design-Transform“. In: Urbach N, Ahlemann F (Hrsg) IT-Management im Zeitalter der Digitalisierung. Auf dem Weg zur IT-Organisation der Zukunft. Springer Gabler, Berlin/Heidelberg, S 55–65
VDI 5600 (2016) Manufacturing Execution Systems (MES), Berlin
Vin LJ de, Jacobsson L, Odhe J (2018) Game-based Lean Production training of university students and industrial employees. Proc Manufact 25:578–585. https://doi.org/10.1016/j.promfg.2018.06.098
Westkämper E, Decker M (2006) Einführung in die Organisation der Produktion. Springer, Berlin/Heidelberg
Westkämper E, Löffler C (2016) Strategien der Produktion; Technologien, Konzepte und Wege in die Praxis. Springer, Berlin/Heidelberg
Womack JP, Jones DT, Roos D (1991) The machine that changed the world: the story of lean production. HarperPerennial, New York
Womack JP, Jones DT, Roos D (2007) The machine that changed the world; The story of lean production; Toyota’s secret weapon in the global car wars that is revolutionizing world industry. Free Press, New York
XETICS GmbH (2019) DER WEG ZUR SMART FACTORY; Das schnelle, schlanke MES von XETICS. https://www.xetics.com/. Zugegriffen am 23.04.2019
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Yesilyurt, O., Draghici, V.P., Bauer, D., Körting, L. (2023). Spielerisches Lernen zur Weiterentwicklung der Lean Production durch Digitalisierung. In: Bauernhansl, T. (eds) Handbuch Industrie 4.0. Springer Vieweg, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-58532-0_169
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