Abstract
Currently, innovations in product development are often implemented through a shift towards product-service systems. Thereby, products are combined with additional services, whereas this integration of both disciplines causes a new complexity. This complexity combined with a future oriented perspective requires a systematic support for planning these product-service systems. Core aspects are the reduction of uncertainty and a better preparation for future evolvements. This contribution presents a procedure that connects a systematic analysis of the future environment with the product-service system. The impact of future contextual influences on the product-service system is assessed by a future-oriented requirements specification. Consequently, the procedure transfers planning information into an engineering perspective. In order to ensure the procedure’s applicability, a case study was performed in the innovative sector of autonomous driving in cooperation with a company from the German automotive industry.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Schmidt DM, Braun F, Schenkl SA, Mörtl M (2016) Interview study: how can product-service systems increase customer acceptance of innovations? CIRP J Manufact Sci Technol 15:82–93
Browning TR, Honour EC (2008) Measuring the life-cycle value of enduring systems. Syst Eng 11(3):187–202
Bauer W (2016) Planung und Entwicklung änderungsrobuster Plattformarchitekturen. Dissertation, Technical University of Munich, Munich
Ulrich KT, Eppinger SD (2004) Product design and development, 3rd ed. Irwin McGraw-Hill, Boston, Mass
Albers A, Bursac N, Wintergerst E (2015) Product generation development-importance and challenges from a design research perspective. New Develop Mech Mech Eng
Blessing LT, Chakrabarti A (2009) DRM, a design research methodology. Springer, London, London
Goedkoop MJ, van Halen CJG, Te Riele HRM, Rommens PJM et al (1999) Product service systems, ecological and economic basics. In: Report for Dutch Ministries of environment (VROM) and economic affairs (EZ), vol 36, no 1, pp 1–122
Tukker A (2004) Eight types of product–service system: eight ways to sustainability? Experiences from SusProNet. Bus Strat Env 13(4):246–260
Baines TS et al (2007) State-of-the-art in product-service systems. J Eng Manuf 221(10):1543–1552
Hepperle C (2016) Planung lebenszyklusgerechter Leistungsbündel. Dissertation, Technical University of Munich, Munich
Kammerl D, Winkler S, Schmidt D, Mörtl M (2016) Model-based support for product-service system planning. In: Design 2016 14th international design conference
Weidmann D, Maisenbacher S, Kasperek D, Maurer M (2015) Product-service system development with discrete event simulation. In: IEEE systems conference (SysCon)
Bleicher K (2011) Das Konzept Integriertes Management, 7th edn. Campus Verlag, Frankfurt
Guiltinan JP (1999) Launch strategy, launch tactics, and demand outcomes. J Prod Innov Manag 16(6):509–529
Schulz AP, Fricke E, Igenbergs E (2000) Enabling changes in systems throughout the entire life-cycle-key to success? In: INCOSE international symposium 2000, vol 10, pp 565–573
Cardin MA (2014) Enabling flexibility in engineering systems: a taxonomy of procedures and a design framework. J Mech Des (136)
Weidmann D, Becerril L, Hollauer C, Kattner N, Lindemann U (2017) A network-based approach to identify lacking coordination using higher order links. In: 21st international conference on engineering design (ICED17)
Lindemann U, Maurer M, Braun T (2009) Structural complexity management: an approach for the field of product design. Springer, Berlin
Dungs J, Herrmann F, Duwe D, Schmidt A, Stegmüller S, Gaydoul R, Sohl M (2016) The value of time. Fraunhofer IAO, Stuttgart
Acknowledgements
We thank the German Research Foundation (Deutsche Forschungsgemeinschaft—DFG) for funding this project as part of the collaborative research center „Sonderforschungsbereich 768—Managing cycles in innovation processes—Integrated development of product-service-systems based on technical products‟.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2019 Springer Nature Singapore Pte Ltd.
About this paper
Cite this paper
Weidmann, D., Stenger, M., Mörtl, M. (2019). Future Oriented Planning of Product-Service Systems. In: Kim, K., Kim, H. (eds) Mobile and Wireless Technology 2018. ICMWT 2018. Lecture Notes in Electrical Engineering, vol 513. Springer, Singapore. https://doi.org/10.1007/978-981-13-1059-1_28
Download citation
DOI: https://doi.org/10.1007/978-981-13-1059-1_28
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-13-1058-4
Online ISBN: 978-981-13-1059-1
eBook Packages: EngineeringEngineering (R0)