C. Mannweiler
Institute for Manufacturing Technology and Production Systems, University of Kaiserslautern, Germany
M. Siener
Institute for Manufacturing Technology and Production Systems, University of Kaiserslautern, Germany
J.C. Aurich
Institute for Manufacturing Technology and Production Systems, University of Kaiserslautern, Germany
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Ingår i: Proceedings of the 2nd CIRP IPS2 Conference 2010; 14-15 April; Linköping; Sweden
Linköping Electronic Conference Proceedings 77:3, s. 21-26
Publicerad: 2012-10-11
ISBN: 978-91-7393-381-0
ISSN: 1650-3686 (tryckt), 1650-3740 (online)
The markets of capital goods manufacturer are dynamically changing throughout the last years. Offering Product-Service Systems (PSS) provide a promising starting point to obtain competitiveness and to realize the changed customer demands. For fulfilling the demands by PSS; an individual PSS-configuration is necessary. After this configuration process several PSS-variants are available.
The customers’ investment decisions for one of these variants are mainly based on the comparison of the purchase costs; neglecting other costs; which arise over the PSS-lifecycle. Thus; for supporting the customers; the paper presents a concept for evaluating and selecting the suitable PSS by a Lifecycle Cost Indicator.
[1] Fähnrich; K.-P-; Meiren; T.; 2007; Service Engineering: State of the Art and Future Trends; Spath; D.; Fähnrich; Advances in Services Innovations; Springer; Berlin: 3-16.
[2] Aurich; J. C.; Schweitzer; E.; Fuchs; C.; 2007; Life Cycle Management of Industrial Product-Service Systems; Advances in Life Cycle Engineering for Sustainable Manufacturing Businesses; Springer; London: 171-176.
[3] Aurich; J.C.; Fuchs; C.; Wagenknecht; C.; 2006; Life Cycle Oriented design of Technical Product-Service Systems; Journal of Cleaner Production; 14/7: 1480- 1494.
[4] Baines; T.S.; et. al.; 2007; State-of-the-art in product-service systems; Journal of Engineering Manufacture; 221 (B); 1543-1552.
[5] Aurich; J.C.; Wolf; N; Siener; M.; Schweitzer; E.; 2009; Configuration of Product-Service Systems; Journal of Manufacturing Technology Management; 20/5: 591-605.
[6] Scheer; C.; 2006 Kundenorientierter Produktkonfigurator: Erweiterung des Produktkonfiguratorkonzeptes zur Vermeidung kundeninitiierter Prozessabbrüche bei Präferenzlosigkeit und Sonderwünschen in der Produktspezifikation; Dissertation; Berlin.
[7] Maier; H.; 2004; Life Cycle-Based Service Design for Innovative Business Models; Annals of the CIRP; 53/1: 393-396.
[8] Fleischer; J.; Weismann; U.; 2007; Interorganizational controlling of production equipment; Production Engineering; 1/4: 395-400.
[9] Datta; P.P.; Roy; R.; 2009; Cost Modelling Techniques for Availability Type Service Support Contracts: a Literature Review and Empirical Study; Proceedings of the 1st CIRP IPS² Conference; Cranfield: 216-223.
[10] Westkämper; E.; Alting; L.; Arndt; G.; 2000; Life Cycle Management and Assessment: Approaches and Visions Towards Sustainable Manufacturing; Annals of the CIRP; 49/2: 501-522.
[11] Kremin-Buch; B.; 1998; Strategisches Kostemanagement – Grundlagen und moderne Instrumente; Gabler; Wiesbaden.
[12] VDI e. V. (Hrsg.); 2003; VDI-Richtlinie 2884: Beschaffung; Betrieb und Instandhaltung von Produktionsmittel unter Anwendung von Life Cycle Costing (LCC); Beuth; Berlin.
[13] VDMA e. V. (Hrsg.); 2006; VDMA-Einheitsblatt 34160: Prognosemodell für die Lebenszykluskosten von Maschinen und Anlagen; Beuth; Berlin.
[14] Kang; J.-G.; Brissaud; D.; 2007; A Product Lifecycle Costing System with Imprecise End-of-Life Data; Advances in Life Cycle Engineering for Sustainable Manufacturing Businesses; Springer; London: 467- 472.
