Advertisement

SPES XT Modeling Framework

  • Wolfgang Böhm
  • Marian Daun
  • Vasileios Koutsoumpas
  • Andreas Vogelsang
  • Thorsten Weyer
Chapter

Abstract

As embedded systems evolve into more and more complex structures to meet the continuously increasing complexity of requirements, they face a variety of challenges. In particular, the involvement of multiple engineering discplines targeting crosscutting aspects of the syatem under development makes the situation even more challenging.

Keywords

Software Engineer Modeling Framework Embed System Aerospace Technology Engineering Artifact 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. [Broy et al. 2012] M. Broy, W. Damm, S. Henkler, K. Pohl, A. Vogelsang, T. Weyer: Introduction to the SPES Modeling Framework. In: K. Pohl, H. Hönninger, R. Achatz, M. Broy: Model-Based Engineering of Embedded Systems: The SPES 2020 Methodology. Springer, Heidelberg/New York, 2012.Google Scholar
  2. [Daun et al. 2012] M. Daun, B. Tenbergen, T. Weyer: Requirements Engineering Viewpoint. In: K. Pohl, H. Hönninger, R. Achatz, M. Broy: Model-Based Engineering of Embedded Systems: The SPES 2020 Methodology. Springer, Heidelberg/New York, 2012.Google Scholar
  3. [Daun et al. 2016] M. Daun, P. Bohn, J. Brings, T. Weyer: Structured Model-Based Engineering of Long-living Embedded Systems: The SPES Methodological Building Blocks Framework. Softwaretechnik-Trends, Vol. 36, No.1, 2016.Google Scholar
  4. [Eder et al. 2012] S. Eder, J. Mund, A. Vogelsang: Logical Viewpoint. In: K. Pohl, H. Hönninger, R. Achatz, M. Broy: Model-Based Engineering of Embedded Systems: The SPES 2020 Methodology. Springer, Heidelberg/New York, 2012.Google Scholar
  5. [Heuer et al. 2013] A. Heuer, T. Kaufmann, T. Weyer: Extending an IEEE 42010-Compliant Viewpoint-Based Engineering Framework for Embedded Systems to Support Variant Management. In: Embedded Systems: Design, Analysis and Verification, IFIP Advances in Information and Communication Technology, Vol. 403, Springer, Heidelberg 2013, 283-292. Google Scholar
  6. [Hilbrich et al. 2012] R. Hilbrich, J. van Kampenhout, M. Daun, T. Weyer, D. Sojer: Modeling Quality Aspects: Real-Time. In: K. Pohl, H. Hönninger, R. Achatz, M. Broy: Model-Rased Engineering of Embedded System: The SPES 2020 Methodology. Springer, Heidelberg/New York, 2012.Google Scholar
  7. [Höfig et al. 2012] K. Höfig, M. Trapp, B. Zimmer, P. I.iggesmeyer: Modeling Quality Aspects: Safety. In: K. Pohl, H. Hönninger, R. Achatz, M. Bray: Model-Based Engineering of Embedded Systems: The SPES 2020 Methodology. Springer, Heidelberg/New York, 2012.Google Scholar
  8. [IS0/IEC/IEEE 42010] ISO/IEC/IEEE. Systems and software engineering – Architecture description. ISO/IEC/IEEE 42010:2011 (E), International Organization for Standardization, Geneva, Switzerland. 2011.Google Scholar
  9. [Vogelsang and Fuhrmann 2013] A. Vogelsang, S. Fuhrmann: Why feature dependencies challenge the requirements engineering of automotive systems: An empirical study. In: Proceedings of the 21st IEEE International Requirements Engineering Conference (RE). 2013.Google Scholar
  10. [Vogelsang et al. 2012] A. Vogelsang, S. Eder, M. Feilkas, D. Ratiu: Functional Viewpoint. In: K. Pohl, H. Hönninger, R. Achatz, M. Broy: Model-Based Engineering of Embedded Systems: The SPES 2020 Methodology. Springer, Heidelberg/New York, 2012.Google Scholar
  11. [Weber et al. 2012] R. Weber, P. Reinkemeier, S. Henkler, I. Stierand: Technical Viewpoint. In: K. Pohl, H. Hönninger, R. Achatz, M. Broy: Model-Based Engineering of Embedded Systems: The SPES 2020 Methodology. Springer, Heidelberg/New York, 2012.Google Scholar

Copyright information

© Springer International Publishing AG 2016

Authors and Affiliations

  • Wolfgang Böhm
    • 1
  • Marian Daun
    • 2
  • Vasileios Koutsoumpas
    • 3
  • Andreas Vogelsang
    • 4
  • Thorsten Weyer
    • 5
  1. 1.Department of InformaticsTechnische Universität München (TUM)GarchingGermany
  2. 2.paluno – The Ruhr Institute for Software TechnologyUniversity of Duisburg-EssenEssenGermany
  3. 3.Department of InformaticsTechnische Universität München (TUM)GarchingGermany
  4. 4.Department of InformaticsTechnische Universität München (TUM)GarchingGermany
  5. 5.paluno – The Ruhr Institute for Software TechnologyUniversity of Duisburg-EssenEssenGermany

Personalised recommendations