@inproceedings{1902,
  abstract     = {{The Toyota Production System became well-known in the 90s and stands for highly efficient processes. The success of the production system stems from its methods and its focus on human factors. For some years, production research has focused on the topic of digital manufacturing. This technology-oriented approach is pursued quite independently of the Toyota Production System. As a result, technical solutions may prove incompatible with the Lean philosophy. Therefore, operational practice must link the Lean philosophy with new technologies in order to make work processes and material flows productive and ergonomic simultaneously. As a part of their education in industrial engineering at the Ostwestfalen-Lippe University of Applied Sciences and Arts, students learn all current Lean methods by means of business games. One of these has been supplemented with information technology components. The objective of this article is to introduce this business game and to explain its didactic concept.}},
  author       = {{Adrian, Benjamin and Hinrichsen, Sven and Nikolenko, Alexander and Meyer, Frederic}},
  booktitle    = {{Advances in Human Factors and Systems Interaction}},
  editor       = {{Nunes, Isabel L.}},
  isbn         = {{978-3-030-20039-8}},
  issn         = {{2194-5357}},
  keywords     = {{Lean, Human factors, Digital manufacturing, Business game, Evaluation, Questionnaire}},
  location     = {{Washington D.C., USA}},
  pages        = {{45--55}},
  publisher    = {{Springer}},
  title        = {{{How to Combine Lean, Human Factors and Digital Manufacturing – A Teaching Concept}}},
  doi          = {{https://doi.org/10.1007/978-3-030-20040-4_5}},
  volume       = {{959}},
  year         = {{2020}},
}

@inproceedings{473,
  abstract     = {{Additive Manufacturing (AM) describes a number of technologies that generate three-dimensional objects directly from CAD data by joining volume elements. Dental technology is one sector in which the benefits of AM come into effect, as parts such as frameworks or implants are unique objects often with freeform shapes. These objects are difficult and expensive to produce with subtractive or formative technology.
During the last decades, the application of digital technologies in the dental industry has increased. Therefore AM has also evolved to become a standard dental framework manufacturing process. While previously the dental laboratory did the complete manufacturing of dental frameworks, AM parts are usually produced by service providers, thus increasing the number of process participants. Under these circumstances, a reliable high quality production must be ensured. This requires a comprehensive Quality Management (QM) concept for the whole process chain. A first step in the evelopment of this QM concept is the definition of the product requirements, from which process specifications can be determined. These specifications build the basis for evaluating the process capability of the Additive Manufacturing process.}},
  author       = {{Huxol, Andrea and Villmer, Franz-Josef}},
  booktitle    = {{Production Engineering and Management}},
  editor       = {{Villmer, Franz-Josef and Padoano, Elio}},
  keywords     = {{Additive Manufacturing, Dental frameworks, Quality management, Digital manufacturing}},
  location     = {{Lemgo}},
  number       = {{1}},
  pages        = {{15--26}},
  title        = {{{Special Requirements for Additive Manufacturing of Dental Frameworks}}},
  year         = {{2016}},
}