Approach for recirculation of testing knowledge into product development supported by matrix-based methods

Authors

  • Carsten Karthaus Institute of Engineering Design and Industrial Design, University of Stuttgart Germany
  • Daniel Roth Institute of Engineering Design and Industrial Design, University of Stuttgart Germany
  • Maximilian Schenk DAIMLER AG, Powertrain Testing Department, Stuttgart-Untertürkheim Germany
  • Hansgeorg Binz Institute of Engineering Design and Industrial Design, University of Stuttgart Germany

Keywords:

recirculation of testing knowledge, knowledge management, Multiple Domain Matrix, testing method

Abstract

Testing methods are relevant to obtain information about product properties. This information must be transferred from testing departments and test benches to the design engineer. In testing departments, a lot of knowledge is generated, mainly about failures. This knowledge and experience is not used sufficiently during the development process. To support this recirculation of testing knowledge, an approach with matrix-based methods will be presented. Therefore, a Multiple Domain Matrix (MDM) was developed to store knowledge. The use of single matrices inside the MDM, and how to acquire the information for these matrices, will be discussed. The relevant measurement signals for interpreting failures detected by test benches are represented in particular detail. These can be used for automatically generated measurement signal diagrams. Computations of new dependencies inside the MDM support the use and distribution of testing knowledge. This use could also be supported by graphs to visualize the knowledge.

Author Biographies

  • Carsten Karthaus, Institute of Engineering Design and Industrial Design, University of Stuttgart Germany

    Bachelor of Science in mechanical engineering (Cooperative State University Heidenheim, 2008); Master of Science in mechanical engineering (Technical University Munich, 2010); Academic Assistants at the Institute for Engineering Design and Industrial Design (IKTD, University of Stuttgart; 2010-2014); Testing engineer for powertrain testing and powertrain integration (DAIMLER AG, Stuttgart Untertürkheim, since 2014)

  • Daniel Roth, Institute of Engineering Design and Industrial Design, University of Stuttgart Germany

    2000 – 2006 Diploma in Technologiemanagement (University of Stuttgart) 2006 – 2010 Academic Assistant at the Institute for Engineering Design and Industrial Design (IKTD, University of Stuttgart) Since 2010 Group Leader Methodical Product Development (MPE) 2010 – 2012 Academic Councillor Since 2012 Academic Senior Councillor

  • Maximilian Schenk, DAIMLER AG, Powertrain Testing Department, Stuttgart-Untertürkheim Germany

    Bachelor of Science in mechanical engineering (Cooperative State University Ravensburg, 2009); Master of Science in mechanical engineering (University of Ulm, 2011); Academic Assistants at the Institute of Machine Components (IMA, University of Stuttgart; 2011-2014) Testing engineer for powertrain testing and load collectives (DAIMLER AG, Stuttgart Untertürkheim, since 2014)

  • Hansgeorg Binz, Institute of Engineering Design and Industrial Design, University of Stuttgart Germany

    Hansgeorg Binz studied mechanical engineering at the Technical University Darmstadt in Germany. From 1980 until 1985 he worked as a scientific assistant at the Institute for Machineelements and Mechanics at the same university, where he earned his doctorate about the initial wear of roller chains. From 1985 until 1998 he held several leading positions in the design and development area of the Carl Schenck AG; P.I.V. Werner Reimers GmbH and SKF Textile Division. In 1998 he was appointed to a professorship for machine and gear unit design at the University of Stuttgart (Germany).

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Published

2022-05-20

Issue

Vol. 3 No. 2 (2015): The Journal of Modern Project Management

Section

Articles-JMPM

License

Copyright (c) 2022 Carsten Karthaus, Daniel Roth, Maximilian Schenk, Hansgeorg Binz

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This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

How to Cite

Approach for recirculation of testing knowledge into product development supported by matrix-based methods. (2022). The Journal of Modern Project Management, 3(2), 138. https://journalmodernpm.com/manuscript/index.php/jmpm/article/view/199

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