Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2019 | 2 | 425--434
Tytuł artykułu

An Integrative Model Based Systems Engineering (MBSE) and Lean-Based Approach for Development of New Complex Products

Warianty tytułu
Języki publikacji
An effective and efficient New Product Development (NPD) and implementation process is crucial for creation of competitive advantage for each company. Due to this fact, companies are more and more often looking for methods and tools for improvement of NPD processes. The paper deals with an integrated Model Based Systems Engineering (MBSE) and lean approach to NPD. The individual stages of the NPD process are predisposed to different degrees to the use of MBSE and Lean. The research conducted shows that the use of advanced MBSE and lean tools and techniques in the development of new products is not widespread. There is a room for future research. (original abstract)
Opis fizyczny
  • Warsaw University of Technology, Poland
  • Chen, Y. (2016). Industrial information integration - A literature review 2006-2015, Journal of Industrial Integration, 2, pp. 30-64.
  • Esridge, C., Eveleigh, T. and Tanju, B. (2016). Integration of System Modeling and Design Processes, Data and Technology for streamlining Enterprise Integration, Procedia Computer Science, 95, pp. 311-318.
  • Forsberg, K., Mooz, H. and Cotterman, H. (2005). Visualizing Project Management: Models and Frameworks for Mastering Complex Systems. Third Edition, John Wiley&Sons, Hoboken.
  • Fosse, E. (2014). Model-based Systems Engineering (MBSE) 101, Presentation presented on International Workshop 25 Jan - 26 Jan 2014, Torrance, CA, USA.
  • Fridenthal, S., Moore A. and Steiner R. (2012). A Practical Guide to SysML: The Systems Modeling Language, Morgan Kaufmann OMG Press.
  • Haghighatkhah, A., Banijamali, A., Pakanen, O., Oivo, M. and Kuvaja P. (2017). Automotive software engineering A systematic mapping study. The Journal of Systems and Software, 128, pp. 25-55.
  • INCOSE SE Vision 2020, INCOSE-TP-2004-004-02, Sep 2007 [Accessed: 10 May 2019].
  • Li, T., Lockett, H. (2017). An Investigation into the Interrelationship between. Aircraft Systems and Final Assembly Process Design, Procedia CIRP, 60, pp. 62-67.
  • Marseu, E., Kolberg, D., Birtel, M. and Zuhlke D. (2016). Interdisciplinary Engineering Methodology for changeable Cyber-Physical Production Systems, IFAC-PapersOnLine, 49-31, pp. 85-90 [Accessed: 20 Apr 2018].
  • Morgan, J., Liker, J. (2006). The Toyota Product Development System. New York: Productivity Press.
  • Oehmen, J. (2012). The Guide to Lean Enablers for Managing Engineering Programs, PMI, INCOSE, LAI-MIT.
  • Oehmen, J., Rebentisch, E. (2010). Waste in Lean Product Development, Lean Advancement Initiative LAI-MIT.
  • Ohno, T. (1988). Toyota Production System: Beyond Large-Scale Production, 1st Edition, Productivity Press.
  • Oppenheim, B. (2004). Lean Product Development Flow, Systems Engineering, 7(4), pp. 352- 376.
  • Oppenheim, B. (2011). Lean for Systems Engineering with Lean Enablers for Systems Engineering, Wiley. New Jersey: Hoboken.
  • Pineda, R., Lopes, A., Tseng, B. and Salcedo O. (2012). Service Systems Engineering Emerging Skills and Tools, Procedia Computer Science, 8, pp. 420-427.
  • Rodic, B. (2017). Industry 4.0 and the New Simulation Modelling Paradigm, Organizacija, 50(3), pp. 193-207.
  • Shafiee, S., Hvam, L., Haug, A., Dam, M. and Kristjansdottir K. (2017). The documentation of product configuration systems A framework and an IT solution, Advanced Engineering Informatics, 32, pp. 163-175.
  • Siedlak, D., Pinon, O., Schlais, P., Schmidt, T. and Mavris D. (2018). A digital thread approach to support manufacturing-influenced conceptual aircraft design, Research Engineering Design, 29, pp. 285-308.
  • Silventoinen, A., Denger, A., Lampela, H. and Papinniemi J. (2014). Challenges of information reuse in customer-oriented engineering networks, International Journal of Information Management, 34, pp. 720-732.
  • Sporer, H., Brenner, E. (2016). An Automotive E/E Systems Domail-Specific Modelling Approach with Various Tool Support, Applied Computing Review, 16(1), pp. 5-14.
  • Ulonska, S., Welo, T. (2013). Need Finding for the Development of a Conceptional, Engineering-Driven, Framework for Improved Product Documentation, Procedia Computer Science, 16, pp. 423-432.
  • Ulrich, K.T., Eppinger, S.D. (2012). Product Design and Development. New York: Fifth Edition, McGraw-Hill Education.
  • Ward, A. (2007). Lean Product and Process Development, Lean Enterprises Inst. Inc., Cambridge MA.
  • Welo, T., Tonning, O. and Rolvag, T. (2013). Leans Systems Engineering (LSE) Hands-on Experiences in Applying LSE to a Student Eco-Car Build Project, Procedia Computer Science, 16, pp. 492-501.
  • Womack, J., Jones, D. and Roos, D. (1990). The Machine That Changed the World, New York (NY): Free Press.
Typ dokumentu
Identyfikator YADDA

Zgłoszenie zostało wysłane

Zgłoszenie zostało wysłane

Musisz być zalogowany aby pisać komentarze.
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.