C. Hepperle
TU München, Institute of Product Development, Germany
R. Orawsk
TU München, Institute of Product Development, Germany
B.D. Nolte
TU München, Institute of Product Development, Germany
M. Mörtl
TU München, Institute of Product Development, Germany
U. Lindemann
TU München, Institute of Product Development, Germany
Download articlePublished in: Proceedings of the 2nd CIRP IPS2 Conference 2010; 14-15 April; Linköping; Sweden
Linköping Electronic Conference Proceedings 77:20, p. 159-166
Managing today’s innovation processes becomes increasingly difficult due to higher dynamics and complexity along the PSS lifecycle. To be able to consider dynamics along the lifecycle early in the innovation process; an integrated understanding of the PSS lifecycle is crucial. Therefore; this paper addresses a PSS lifecycle model considering phases from the planning and development of PSS throughout the phases of use and disposal. The lifecycle of the physical component (product) must thereby not be seen separately from the associated service lifecycle. Based on existing lifecycle models in the areas of service engineering and integrated product development; an aggregated PSS lifecycle model is deduced and discussed.
Lifecycle; Innovation Process; Dynamics; Integrated Product Development; Strategic Planning
[1] Ehrlenspiel; K.; Kiewert; A.; Lindemann; U.; Hundal; M.S.; 2007; Cost-Efficient Design; Berlin: Springer.
[2] Gausemeier; J.; Lindemann; U.; Schuh; G.; 2004; Planung der Produkte und Fertigungs-systeme für die Märkte von morgen; Frankfurt: VDMA.
[3] Georgantzas; N.C.; Acar; W.; 1995; Scenario-Driven Planning – Learning To Manage Strategic Uncertainty; Westport: Quorum Books.
[4] Meier; H.; Kortmann; D.; Völker O.; 2007; Gestaltung und Erbringung hybrider Leistungsbündel; wt Werkstattstechnik online Jahrgang Vol 97; Iss. 7/8.
[5] Schwarzer; B.; 2005; Der Einsatz von Electronic Meeting Systems im Service Engineering am Beispiel von GroupVision.Web. In: Herrmann; T.; Kleinbeck; U.; Krcmar; H. (Eds.); Konzepte für das Service Engineering; Heidelberg: Physika-Verlag.
[6] Meiren; T.; Barth; T.; 2002; Service Engineering in Unternehmen umsetzen. Stuttgart: Fraunhofer IRB.
[7] Bullinger; H.-J.; Fähnrich; K.-P.; Meiren; T.; 2003; Service Engineering – Methodical Development of New Service Products; International Journal of Production Economics 85.
[8] Ramaswamy; R.; 1996; Design and Management of Service Processes: Keeping Customers for Life; Reading: Addison-Wesley Publishing Company; Inc.
[9] Cernavin; O.; Ebert; B.; Keller; S.; 2007; Service Engineering und Prävention; Wiesbaden: BC GmbH Forschungs- und Beratungsgesellschaft 2007.
[10] Krallmann; H.; Hoffrichter; M.; 1998; Service Engineering – Wie entsteht eine neue Dienstleistung. In: Bullinger; H.-J.; Zahn; E. (Eds.): Dienstleistungsoffensive – Wachstumschancen intelligent nutzen; Stuttgart: Schäffer-Poeschel.
[11] Schneider; K.; Scheer; A.-W.; 2003; Konzept zur systematischen und kundenorientierten Entwicklung von Dienstleistungen. Institute for Information Systems; Research Report 175.
[12] Hepperle; C.; Thanner; S.; Mörtl; M.; Lindemann; U.; 2009; An integrated product lifecycle model and interrelations in-between the lifecycle phases; 6th International Conference on Product Lifecycle Management; Bath (UK).
[13] Arnold; V.; Dettmering; H.; Engel; T.; Karcher; A.; 2005; Product Lifecycle Management beherrschen – Ein Anwenderbuch für den Mittelstand; Berlin: Springer.
[14] Stark; J.; 2005; Product Lifecycle Management – 21st Century Paradigm for Product Realisation; London: Springer.
[15] Grieves; M.; 2006 Product Lifecycle Management – Driving the Next Generation of Lean Thinking; New York: McGraw-Hill.
[16] Saaksvuori; A. and Immonen; A.; 2005; Product Lifecycle Management; 2nd ed. Berlin: Springer.
[17] VDI 2221; 1993; Systematic Approach to the Development and Design of Technical Systems and Products; Düsseldorf: VDI-Verlag.
[18] Pahl; G.; Beitz; W.; Feldhusen; J.; Grote K.-H.; Eds.: Wallace; K.; Blessing; L.; 2007; Engineering Design: A Systematic Approach; 3rd ed. Berlin: Springer.
[19] Ehrlenspiel; K.; 2006; Integrierte Produktentwicklung; 3rd ed. Munich: Hanser.
[20] Ullman; D.G.; 1997; The Mechanical Design Process; 2nd ed. Boston: McGraw-Hill.
[21] VDI 2220; 1980; Product Planning; Flow; Terms and Organization; Düsseldorf: VDI-Verlag.
[22] Braun; T.; Gausemeier; J.; Lindemann; U.; Orlik; L. and Vienenkötter; A.; 2004; Design Support by Improving Method Transfer – A Procedural Model and Guidelines for Strategic Product Planning in Small and Medium-sized Enterprises; International Design Conference – Design 2004; Dubrovnik; Zagreb: Sveucilisna tiskara.
[23] Ponn; J.; Lindemann; U.; 2008; Konzeptentwicklung und Gestaltung technischer Produkte; Berlin: Springer.
[24] Hundal; M.S.; 2002; Mechanical Life Cycle Handbook; New York: Marcel Dekker.
[25] Gausemeier; J.; Hahn; A.; Kespohl; H.D.; Seifert; L.; 2006; Vernetzte Produktentwicklung: Der erfolgreiche Weg zum Global Engineering Networking; Munich: Hanser.
[26] VDI 4499; 2008; Digital Factory – Fundamentals; Düsseldorf: VDI-Verlag.
[27] Conrad; K.-J.; 1998; Grundlagen der Konstruktionslehre; Munich: Hanser.
[28] Kleinaltenkamp; M.; Plinke; W. (Eds.) (1995) Technischer Vertrieb – Grundlagen; Berlin: Springer 1995.
[29] Mörtl; M.; 2003; Design for Upgrading’ of Machines and Production Processes: A Guideline Based on Actual Demands of Industry and Sustainable Design; 14th International Conference on Engineering Design; ICED’ 03; Stockholm.
[30] VDI 2243; 2002; Recycling-Oriented Product Development; Düsseldorf: VDI-Verlag.
[31] DIN 31051; 2003; Fundamentals of Maintenance; Berlin: Beuth.
[32] Stengel; T.; Schießl; P.; Heinz; D.; 2006 Nachhaltige Kreislaufführung mineralischer Baustoffe; Munich: TUM; Research report F2032.
[33] Becker; J.; Krcmar; H.; 2008; Integration von Produkten und Dienstleistungen – Hybride Wertschöpfung; Wirtschaftsinformatik Vol. 3.
[34] Hartel; I.; 2004; Virtuelle Servicekooperationen; Zürich: vdf Hochschulverlag.
[35] Knackstedt; R.; Poppelbuss; J.; Winkelmann; A.; 2008; Integration von Sach- und Dienstleistungen – Ausgewählte Internetquellen zur hybriden Wertschöpfung; Wirtschaftsinformatik Vol. 3.
[36] Abramovici; M.; Schulte; S.; 2006; Life Cycle Management für hybride Leistungsbündel; wt Werkstatttechnik online Vol. 96; Iss. 7/8.
[37] Aurich; J.C.; Fuchs; C.; 2006; Wagenknecht C.; Life cycle oriented design of technical Product-Service Systems; Journal of Cleaner Production 14.
[38] Langer; S.; Lindemann; U.; 2009; Managing Cycles in Development Processes – Analysis and Classification of External Context Factors; 17th International Conference on Engineering Design; ICED09; Stanford.
[39] Meerkamm; A.; 1994; Design for X – a core Area of Design Methodology; Journal of Engineering Design; Vol. 5; No. 2.
[40] McAloone T.C.; Andreasen M.M.; 2004; ‘Design for Utility; Sustainability and Societal Virtues; Developing Product Service Systems’; International Design Conference – Design 2004; Dubrovnik; Zagreb: Sveucilisna tiskara.
[41] Lindemann; U; Maurer; M; Braun; T.; 2009; Structural Complexity Management - An Approach for the Field of Product Design. Springer: Berlin.