Abstract
Within the framework of inspection planning, quality inspections for the entire production process from goods receipt to dispatch are established. As the quality inspections ensure that the manufactured product corresponds to the quality demands derived from the customer requirements, they have a significant influence on customer satisfaction and resulting economic success.
This publication presents a model based on decision theory for planning quality inspections in the entire production process. The model considers that decisions (e. g. with respect to inspection extend) need to be made during inspection planning, whose profitability depends on environmental states, that have a certain probability such as defect frequency, for example. The goal of the model is to enable cost-efficient decisions in consideration of the companies risk attitude regarding the outcome of the inspection plan (e. g. defects perceived by the customer).
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References
Schmitt, R., Monostori, L., Glöckner, H., Viharos, Z.: Design and assessment of quality control loops for stable business processes. Annals of the CIRP, Manufacturing Technology 61, 439–444 (2012)
VDI/VDE/DGQ 2619: Inspection Planning, Verein Deutscher Ingenieure, Beuth, Berlin (1985)
Harry, M.J.: Six Sigma: Prozesse optimieren, Null-Fehler-Qualität schaffen, Rendite radikal steigern, 3rd edn. Campus, Frankfurt am Main (2005)
Töpfer, A.: Betriebswirtschaftslehre: Anwendungs- und prozessorientierte Grundlagen. Springer, Berlin (2005)
Norm DIN 55350: Begriffe der Qualitätssicherung und Statistik (1995)
Liangsiri, J.: Assembly Process Improvement by Means of Inspection Planning and Corresponding Tolerance Planning. A Modelling and Simulation Approach, Doctoral Dissertation, TU Dortmund (2007)
Pfeifer, T., Schmitt, R.: Fertigungsmesstechnik, 3rd edn. Oldenbourg, München (2010)
von Nitzsch, R.: Entscheidung bei Zielkonflikten. Dissertation, RWTH Aachen (1992)
Laux, H., Gillenkirch, R., Schenk-Mathes, H.: Entscheidungstheorie, 8th edn. Springer, Berlin (2012)
von Nitzsch, R.: Entscheidungslehre. Wie Menschen entscheiden und wie sie entscheiden sollten, 6th edn. Wiss.-Verl. Mainz, Aachen (2011)
Dörsam, P.: Grundlagen der Entscheidungstheorie, 5th edn. PD-Verlag, Heidenau (2007)
Eisenführ, F., Weber, M., Langer, T.: Rationales Entscheiden, 5th edn. Springer, Berlin (2010)
von Nitzsch, R.: Entscheidungslehre, 5th edn., Mainz, Aachen (2008)
Van Volsem, S.: A metaheuristic method for determining cost-efficient inspection strategies for multistage production systems. In: 21st European Conference on Operational Research (2006)
Colledani, M., Tolio, T.: Integrated quality, production logistics and maintenance analysis of multi-stage asynchronous manufacturing systems with degrading machines. CIRP Annals - Manufacturing Technology 61(1), 455–458 (2012)
Schmitt, R., Nau, M., Nisch, S.: Challenges and methods of measurement process validation for machine integrated product inspection. In: Daejeon, Korea, S. (ed.) Proceedings of 10th International Symposium on Measurement Technology and Intelligent Instruments ISMTII 2011, June 29-July 2 (2011)
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Schmitt, R., Janßen, C., Basse, I., Schmitt, S. (2014). Model for a Decision Theory Based Inspection Planning. In: Zaeh, M. (eds) Enabling Manufacturing Competitiveness and Economic Sustainability. Springer, Cham. https://doi.org/10.1007/978-3-319-02054-9_65
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DOI: https://doi.org/10.1007/978-3-319-02054-9_65
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-02053-2
Online ISBN: 978-3-319-02054-9
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