Hostname: page-component-7bb8b95d7b-cx56b Total loading time: 0 Render date: 2024-09-18T04:12:54.023Z Has data issue: false hasContentIssue false
  • English
  • Français

From Supply Chain Stakeholder to Service Customer: An Engineering Framework for Vehicle-Based Services

Published online by Cambridge University Press:  26 May 2022

C. Pizzinini ,
J. Bercher  and
M. Lienkamp
C. Pizzinini*
Affiliation:
Chair of Automotive Technology, Technical University of Munich, Germany
J. Bercher
Affiliation:
Chair of Automotive Technology, Technical University of Munich, Germany
M. Lienkamp
Affiliation:
Chair of Automotive Technology, Technical University of Munich, Germany
*
clemens.pizzinini@tum.de

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Geographic distance between supply and demand reduces spatial accessibility. Vehicles have been contributing to improved spatial accessibility by offering transport services for people and goods. From traditional trucks to mobile health clinics, vehicles can offer a wide range of functionalities on wheels. To develop context-specific vehicles-based services, we propose a novel engineering framework based on a supply chain perspective. Requirements are derived from supply chain stakeholders and translated into vehicle-based services and vehicle components.

Keywords

design methodsdesign researchnew product development
Type
Article
Information
Proceedings of the Design Society , Volume 2: DESIGN2022 , May 2022 , pp. 1081 - 1090
Creative Commons
Creative Common License - CCCreative Common License - BYCreative Common License - NCCreative Common License - ND
This is an Open Access article, distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives licence (http://creativecommons.org/licenses/by-nc-nd/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is unaltered and is properly cited. The written permission of Cambridge University Press must be obtained for commercial re-use or in order to create a derivative work.
Copyright
The Author(s), 2022.

References

Ahuja, R. and Tiwari, G. (2021), “Evolving term “accessibility” in spatial systems: Contextual evaluation of indicators”, Transport Policy, Vol. 113, pp. 411. 10.1016/j.tranpol.2021.03.006Google Scholar
Bahill, A.T. and Chapman, W.L. (1993), “A Tutorial on Quality Function Deployment”, Engineering Management Journal, Vol. 5 No. 3, pp. 24-35. 10.1080/10429247.1993.11414742CrossRefGoogle Scholar
Baltacioglu, T., Ada, E., Kaplan, M.D., Yurt And, O. and Cem Kaplan, Y. (2007), “A New Framework for Service Supply Chains”, The Service Industries Journal, Vol. 27 No. 2, pp. 105124. 10.1080/02642060601122629Google Scholar
Berkovich, M., Esch, S., Leimeister, J. and Krcmar, H. (2009), “Requirements Engineering for Hybrid Products as Bundles of Hardware, Software and Service Elements - A Literature Review”, In: Hansen, H.R., Karagiannis, D. and Fill, H. (Ed.), Business Services: Konzpepte, Technologien, Anwedungen, Österreichische Computer Gesellschaft, Vienna, pp. 727736.Google Scholar
Berkovich, M., Leimeister, J.M. and Krcmar, H. (2011), “Requirements Engineering for Product Service Systems”, Business & Information Systems Engineering, Vol. 3 No. 6, pp. 369380. 10.1007/s12599-011-0192-2Google Scholar
Bianchi, R. and Kossoudji, S.A. (2001), Interest Groups and Organizations as Stakeholders. [online] World Bank. Available at: https://web.worldbank.org/archive/website00522/WEB/PDF/SDP_35.PDF (accessed 21.02.2022).Google Scholar
Broy, M., Geisberger, E., Kazmeier, J., Rudorfer, A. and Beetz, K. (2007), “Ein Requirements-Engineering-Referenzmodell”, Informatik-Spektrum, Vol. 30 No.3, pp.127142. 10.1007/s00287-007-0149-5Google Scholar
Cavalieri, S. and Pezzotta, G. (2012), “Product–Service Systems Engineering: State of the art and research challenges”, Computers in Industry, Vol. 63 No. 4, pp. 278-288. 10.1016/j.compind.2012.02.006Google Scholar
Christensen, C.M., Hall, T., Dillon, K. and Duncan, D.S. (2016), Know Your Customers’ “Jobs to Be Done”. [online] Harvard Business Review. Available at: https://hbr.org/2016/09/know-your-customers-jobs-to-be-done (accessed 08.11.2021).Google Scholar
Costa-Patry, E., Holzendorf, S. and Pätsch, M. (2021), “Pkw-Regensensoren als mobile Messstationen in der Starkregenvorhersage”, ATZ - Automobiltechnische Zeitschrift, Vol. 123 No. 5-6, pp. 74-78. 10.1007/s35148-021-0681-7Google Scholar
Coughlan, J. and Macredie, R.D. (2002), “Effective Communication in Requirements Elicitation: A Comparison of Methodologies”, Requirements Engineering, Vol. 7 No. 2, pp. 47-60. 10.1007/s007660200004Google Scholar
FAO (2017), Profil de Pays – Côte D'Ivoire. [online] United Nations Food and Agriculture Organization. Available at: https://www.fao.org/countryprofiles/index/fr/?iso3=CIV (accessed 08.11.2021).Google Scholar
Farris, M.T. (2010), “Solutions to strategic supply chain mapping issues”, International Journal of Physical Distribution & Logistics Management, Vol. 40 No. 3, pp. 164-180. 10.1108/09600031011035074CrossRefGoogle Scholar
Geimer, M.C. and Pohlandt, C. (2014), Grundlagen mobiler Arbeitsmaschinen, KIT Publishing, Karlsruhe. 10.5445/KSP/1000039443Google Scholar
Gerring, J. (2006), Case Study Research: Principles and Practices, Cambridge University Press, Cambridge. 10.1017/CBO9780511803123CrossRefGoogle Scholar
GIZ (2018), Valuelinks 2.0 Manual on Sustainable Value Chain Development. [online] Deutsche Gesellschaft für Internationale Zusammenarbeit. Available at: https://www.valuelinks.org/material/manual/ValueLinks-Manual-2.0-Vol-2-January-2018.pdf (accessed 22.02.2022).Google Scholar
Grieger, M. and Ludwig, A. (2019), “On the move towards customer-centric business models in the automotive industry - a conceptual reference framework of shared automotive service systems”, Electronic Markets, Vol. 29 No. 3, pp. 473-500. 10.1007/s12525-018-0321-6Google Scholar
Griffin, A. and Hauser, J.R. (1993), “The Voice of the Customer”, Marketing Science, Vol. 12 No. 1, pp. 1-27. 10.1287/mksc.12.1.1Google Scholar
Hankammer, S., Brenk, S., Fabry, H., Nordemann, A. and Piller, F.T. (2019), “Towards circular business models: Identifying consumer needs based on the jobs-to-be-done theory”, Journal of Cleaner Production, Vol. 231, pp. 341-358. 10.1016/j.jclepro.2019.05.165Google Scholar
Hansen, W.G. (1959), “How Accessibility Shapes Land Use”, Journal of the American Institute of Planners, Vol. 25 No. 2, pp. 73-76. 10.1080/01944365908978307CrossRefGoogle Scholar
Hill, C.F., Powers, B.W., Jain, S.H., Bennet, J., Vavasis, A. and Oriol, N.E. (2014), “Mobile health clinics in the era of reform”, The American Journal of Managed Care, Vol. 20 No.3, pp.261264.Google ScholarPubMed
Huan, S.H., Sheoran, S.K. and Wang, G. (2004), “A review and analysis of supply chain operations reference (SCOR) model”, Supply Chain Management: An International Journal, Vol. 9 No. 1, pp. 23-29. 10.1108/13598540410517557CrossRefGoogle Scholar
Kang, N., Kokkolaras, M., Papalambros, P.Y., Yoo, S., Na, W., Park, J. and Featherman, D. (2014), “Optimal design of commercial vehicle systems using analytical target cascading”, Structural and Multidisciplinary Optimization, Vol. 50 No. 6, pp. 1103-1114. 10.1007/s00158-014-1097-8Google Scholar
Karsak, E., Sozer, S. and Alptekin, S. (2003), “Product planning in quality function deployment using a combined analytic network process and goal programming approach”, Computers & Industrial Engineering, Vol. 44 No. 1, pp. 171-190. 10.1016/S0360-8352(02)00191-2Google Scholar
Knorr, C. and Friedrich, A. (2016), QFD–Quality Function Deployment: Mit System zu marktattraktiven Produkten, Hanser, Munich.CrossRefGoogle Scholar
Kreimeyer, M., Baumberger, C., Deubzer, F. and Ziethen, D. (2016), “An integrated product information model for variant design in commercial vehicle development”, Proceedings of the DESIGN 2016 14th International Design Conference, Dubrovnik, Croatia, May 16-19, 2016, DS 84: Proceedings of the DESIGN 2016 14th International Design Conference, pp. 707716.Google Scholar
Lucassen, G., van de Keuken, M., Dalpiaz, F., Brinkkemper, S., Sloof, G.W. and Schlingmann, J. (2018), “Jobs-to-be-Done Oriented Requirements Engineering: A Method for Defining Job Stories”, In: Knaus, E. and Goedicke, M. (Eds.), Requirements Engineering: Foundation for Software Quality, Springer Nature, Cham, pp. 227243. 10.1007/978-3-030-15538-4CrossRefGoogle Scholar
Mahut, F., Daaboul, J., Bricogne, M. and Eynard, B. (2016), “Product-Service Systems for servitization of the automotive industry: a literature review”, International Journal of Production Research, Vol. 55 No.7, pp.21022120. 10.1080/00207543.2016.1252864Google Scholar
Nicoletti, L., Brönner, M., Danquah, B., Koch, A., König, A., Krapf, S., Pathak, A., Schockenhoff, F., Sethuraman, G., Wolff, S. and Lienkamp, M. (2020), “Review of Trends and Potentials in the Vehicle Concept Development Process”, Fifteenth International Conference on Ecological Vehicles and Renewable Energies (EVER), Monte-Carlo, Monaco, May 28-30, 2020, IEEE publication, pp. 115. 10.1109/EVER48776.2020.9243115Google Scholar
OEC (2021), Côte d'Ivoire Country Profile. [online] The Observatory of Economic Complexity. Available at: https://oec.world/en/profile/country/civ (accessed 08.11.2021).Google Scholar
Pouloudi, A. and Whitley, E.A. (1997), “Stakeholder identification in inter-organizational systems: gaining insights for drug use management systems”, European Journal of Information Systems, Vol. 6 No.1, pp.114. 10.1057/palgrave.ejis.3000252CrossRefGoogle Scholar
Reed, M.S., Graves, A., Dandy, N., Posthumus, H., Hubacek, K., Morris, J., Prell, C., Quinn, C.H. and Stringer, L.C. (2009), “Who's in and why? A typology of stakeholder analysis methods for natural resource management”, Journal of Environmental Management, Vol. 90 No. 5, pp. 1933-1949. 10.1016/j.jenvman.2009.01.001CrossRefGoogle Scholar
Sakao, T. and Shimomura, Y. (2007), “Service Engineering: a novel engineering discipline for producers to increase value combining service and product”, Journal of Cleaner Production, Vol. 15 No. 6, pp. 590–604. 10.1016/j.jclepro.2006.05.015Google Scholar
Schockenhoff, F., König, A., Koch, A. and Lienkamp, M. (2020), “Customer-Relevant Properties of Autonomous Vehicle Concepts”,Procedia CIRP Vol. 91, pp. 5560. 10.1016/j.procir.2020.02.150CrossRefGoogle Scholar
Starkey, P. (2007), A Methdology for Rapid Assessment of Rural Transport Services, Sub-Saharan Africa Transport Policy Program. [online] World Bank. Available at: https://openknowledge.worldbank.org/handle/10986/17776 (accessed 21.02.2022).Google Scholar
Trusts, Tata (2020), Healthcare on Wheels. [online] Tata Trusts. Available at: https://www.tatatrusts.org/our-stories/article/healthcare-on-wheels (accessed 08.11.2021).Google Scholar
Ulwick, A. W. (2016), Jobs to be done: theory to practice, Idea Bite Press.Google Scholar
USAID (2020), Welness on Wheels: Detecting TB cases in Nigeria. [online] United States Agency for International Development. Available at: https://www.usaid.gov/global-health/health-areas/tuberculosis/resources/news-and-updates/global-accelerator-end-tb/stories/wellness-on-wheels (accessed 08.10.2021).Google Scholar
van de Weerd, I. and Brinkkemper, S. (2009), “Meta-Modeling for Situational Analysis and Design Methods”, In: Syed, M.R. and Syed, S.N. (Eds.), Handbook of Research on Modern Systems Analysis and Design Technologies and Applications, Information Science Reference, New York, pp. 3554. 10.4018/978-1-59904-887-1.ch003CrossRefGoogle Scholar
van Lamsweerde, A. (2001), “Goal-oriented requirements engineering: a guided tour”, Proceedings Fifth IEEE International Symposium on Requirements Engineering, Toronto, Canada, August 27-31, 2001, IEEE publication, pp. 249262. 10.1109/ISRE.2001.948567Google Scholar
van Lamsweerde, A., Darimont, R. and Letier, E. (1998), “Managing conflicts in goal-driven requirements engineering”, IEEE Transactions on Software Engineering, Vol. 24 No. 11, pp. 908926. 10.1109/32.730542Google Scholar
Yücel, E., Salman, F.S., Bozkaya, B. and Gökalp, C. (2020), “A data-driven optimization framework for routing mobile medical facilities”, Annals of Operations Research, Vol. 291 No. 1, pp. 1077-1102. 10.1007/s10479-018-3058-xGoogle Scholar