Abstract
Recent research and development activities within the field of production system engineering and operation focus on the increase of production system flexibility and adaptability. One common issue of those approaches is the consideration of hierarchical and modular production system architectures where the individual components of the system are equipped with certain functionalities and information. Up to now there is no common understanding about what a component constitutes, i.e. which parts of a production system can be regarded as components within the hierarchy and which functionalities and information are assigned to it. This gap will be closed within this, the prior, and the subsequent chapter.
They will at first discuss the relevant layers of components in a production system, then the types of information required to be assigned to a component on the different layers to establish a virtual representation of the component, and at last the description means exploitable to represent the identified information in the different life cycle phases of a production system.
This chapter in particular will consider in detail the information sets relevant for a production system component along the life cycle of a production system. Relevant artifacts are identified for each of the three main life cycle phases described in Chap. 5, assigned to the different layers of the production system hierarchy, and discussed against main cases of information reuse within the life cycle of production systems. Through this, it is intended to enable an identification of hierarchy layers based on relevant information sets.
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References
Diedrich, C., Lüder, A., Hundt, L.: Bedeutung der Interoperabilität bei Entwurf und Nutzung von automatisierten Produktionssystemen. Automatisierungstechnik. 59(7), 426–438 (2011)
Dreher, S., Nürnberger, A., Kägebein, S., Schoch, A.: Digitiales Baustellenmanagement für Produktionsanlagen. ZWF Jahrg. 108, 1–2 (2013, in German)
Duflou, J.R., Seliger, G., Kara, S., Umeda, Y., Ometto, A., Willems, B.: Efficiency and feasibility of product disassembly – a case-based study. CIRP Ann. Manuf. Technol. 57(2), 583–600 (2008)
Feldmann, K., Trautner, S., Meedt, O.: Innovative disassembly strategies based on flexible partial destructive tools. Annu. Rev. Control. 23, 159–164 (1999)
Hartel, M., Spath, D.: Öko-Portfolio: Methode zur Beurteilung der Recyclingeignung technischer Serienprodukte, pp. 371–392. VDI-Berichte, 1171, VDI Düsseldorf (1994, in German)
Hell, K., Hillmann, R., Lüder, A., Röpke, H., Zawisza, J., Schmidt, N., Calà, A.: Demands on the virtual representation of physical Industrie 4.0 components. In: Conferenza INCOSE Italia su Systems Engineering (CIISE 2016), Turin, Italy, 14–16 November 2016
Huber, A.: Demontageplanung und -steuerung: Planung und Steuerung industrieller Demontageprozesse mit PPS-Systemen. Dissertation, Otto-von-Guericke University Magdeburg (2001, in German)
Hubig, M.-A.: Erarbeitung einer Methode zur deduktiven Ableitung Strategischer Recyclinganforderungen mit Hilfe der Szenariotechnik. Seminar Paper, University Kaiserslautern (2001, in German)
AG Forschung and Innovation (Plattform Industrie 4.0): Aspekte der Forschungsroadmap in den Anwendungsszenarien. Report, BMWi (2016, in German)
Kiehl, E. (ed.): Antriebslösungen – Mechatronik für Produktion und Logistik. Springer, Berlin (2007)
Kis, T.: Planning and scheduling in the digital factory, KOMSO challenge workshop – math for the digital factory. In: Proceedings, Berlin, Germany, May 2014
Leitão, P., Karnouskos, S.: Industrial Agents: Emerging Applications of Software Agents in Industry, pp. 153–170. Elsevier, Waltham, MA (2015)
Lindahl, M., Sundin, E., Östlin, J., Björkman, M.: Concepts and definitions for product recovery, analysis and clarification of the terminology used in academia and industry. In: Brissaud, D., et al. (eds.) Innovation in Life Cycle Engineering and Sustainable Development, pp. 123–138. Springer (2006)
Lüder, A., Foehr, M., Hundt, L., Hoffmann, M., Langer, Y., Frank, St.: Aggregation of engineering processes regarding the mechatronic approach. In: 16th IEEE International Conference on Emerging Technologies and Factory Automation (ETFA 2011), Toulouse, France, Proceedings-CD, September 2011
Lüder, A.: Strukturen zur verteilten Steuerung von Produktionssystemen, Habilitationsschrift. Fakultät Maschinenbau, Otto-von-Guericke Universität Magdeburg (2006)
Lunze, J.: Automatisierungstechnik – Methoden für die Überwachung und Steuerung kontinuierlicher und ereignisdiskreter Systeme. Oldenbourg Verlag, München (2008)
Obst, M., Holm, T., Bleuel, S., Claussnitzer, U., Evertz, L., Jäger, T., Nekolla, T.: Automatisierung im Life Cycle modularer Anlagen: Welche Veränderungen und Chancen sich ergeben. atp edition. 55(01–02), 24–31 (2013, in German)
Pahl, G., Beitz, W., Feldhusen, J., Grote, K.-H.: Engineering Design – A Systematic Approach. Springer, London (2007)
PAS 1049: Transmission of Recycling Relevant Product Information Between Producers and Recyclers – The Recycling Passport. Beuth Verlag, Berlin (2004, in German)
Röpke, H., Lüder, A., Hell, K., Zawisza, J., Schmidt, N.: Identification of “Industrie 4.0” component hierarchy layers. In: Submitted to IEEE International Conference on Emerging Technologies and Factory Automation (ETFA 2016), Berlin, Germany, September 2016
Rosemann, B., Meerkamm, H., Trautner, S., Feldmann, K.: Design for recycling, recycling data management and optimal end-of-life planning based on recycling-graphs. In: International Conference on Engineering Design (ICED 1999), pp. 1–6, Munich, Germany, 24–26 August 1999
Ruhland, K.: Methoden und Werkzeuge zur recyclinggerechten Automobilentwicklung. Dissertation, University Kaiserslautern (2006, in German)
Sametinger, J.: Software Engineering with Reusable Components. Springer, New York (1997)
Schäffler, T., Foehr, M., Lüder, A., Supke, K.: Engineering process evaluation – evaluation of the impact of internationalisation decisions on the efficiency and quality of engineering processes. In: 22nd IEEE International Symposium on Industrial Electronics (ISIE 2013), Taipei, Taiwan, Proceedings, May 2013
Schiffleitner, A., Bley, T., Schneider, R., Wimpff, D.-P.: Stakeholder perspectives on business model requirements for a sustainability data exchange platform across supply chains. In: Joint International Conference and Exhibition “Electronics Goes Green”, pp. 9–12, Berlin, Germany, Proceedings, September 2012
Schmidt, N., Lüder, A., Hell, K., Röpke, H., Zawisza, J.: A generic model for the end-of-life phase of production systems. In: IECON 2016: The 42nd Annual Conference of IEEE Industrial Electronics Society, Florence, Italy, 24–27 October 2016
Schultmann, F., Fröhling, M., Rentz, O.: Demontageplanung und -steuerung mit Enterprise-Resource- and Advanced-Planning-Systemen. Wirtschaftsinformatik (WI-Aufsatz). 44(6), 557–565 (2002, in German)
Seliger, G., Basdere, B., Keil, T.: e-Cycling platform for profitable reuse. In: IEEE International Symposium on Assembly and Task Planning, Fukuoka, Japan, Proceedings, 28–29 May 2001
Simolowo, E., Onovughe, E.: Automation of generation of models for disassembly process planning for recycling. In: World Congress on Engineering 2013, vol. III (WCE 2013), London, UK, Proceedings, 3–5 July 2013
Steinhilper, R., Rieg, F. (eds.): Handbuch Konstruktion. Carl Hanser Verlag, Munich (2012, in German)
VDI 2243: Recycling-Oriented Product Development. Beuth Verlag, Berlin (2002)
VDI/VDE—GMA—Fachausschuss 7.21: Industrie 4.0. Referenzarchitekturmodell Industrie 4.0 (RAMI4.0). https://www.vdi.de/fileadmin/user_upload/ (2015). Last access 25 Oct 2016
VDI 3695: Engineering of Industrial Plants. Evaluation and Optimization. Subject Methods, Part 3. Beuth Verlag, Berlin (2010)
Vogel-Heuser, B., Diedrich, C., Broy, M.: Anforderungen an CPS aus Sicht der Automatisierungstechnik. Automatisierungstechnik. 61(10), 669–676 (2013)
Willems, B., Seliger, G., Duflou, J., Basdere, B.: Contribution to design for adaptation: method to assess the adaptability of products (MAAP). In: EcoDesign2003: Third International Symposium on Environmentally Conscious Design and Inverse Manufacturing, pp. 589–596, IEEE, Tokyo, Japan, Proceedings, 8–11 December 2003
Yang, C., Vyatkin, V., Pang, C.: Model-driven development of control software for distributed automation. IEEE Trans. Syst. Man Cybern. Syst. 44(3), 292–305 (2014)
Zawisza, J., Hell, K., Röpke, H., Lüder, A., Schmidt, N.: Generische Strukturierung von Produktionssystemen der Fertigungsindustrie. 17. Branchentreff der Mess- und Automatisierungstechnik (Automation 2016), Baden-Baden, Germany, Proceedings, VDI-Verlag, June 2016 (in German)
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Lüder, A., Schmidt, N., Hell, K., Röpke, H., Zawisza, J. (2017). Identification of Artifacts in Life Cycle Phases of CPPS. In: Biffl, S., Lüder, A., Gerhard, D. (eds) Multi-Disciplinary Engineering for Cyber-Physical Production Systems. Springer, Cham. https://doi.org/10.1007/978-3-319-56345-9_6
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DOI: https://doi.org/10.1007/978-3-319-56345-9_6
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