Towards Smart Systems of Systems (bibtex)
by , ,
Abstract:
Systems of Systems (SoS) have started to emerge as a consequence of the general trend toward the integration of beforehand isolated systems. To unleash the full potential, the contained systems must be able to operate as elements in open, dynamic, and deviating SoS architectures and to adapt to open and dynamic contexts while being developed, operated, evolved, and governed independently. We name the resulting advanced SoS to be smart as they must be self-adaptive at the level of the individual systems and self-organizing at the SoS level to cope with the emergent behavior at that level. In this paper we analyze the open challenges for the envisioned smart SoS. In addition, we discuss our ideas for tackling this vision with our SMARTSOS approach that employs open and adaptive collaborations and models at runtime. In particular, we focus on preliminary ideas for the construction and assurance of smart SoS.
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Reference:
Towards Smart Systems of Systems (Holger Giese, Thomas Vogel, Sebastian Wätzoldt), In Proceedings of the 6th International Conference on Fundamentals of Software Engineering (FSEN '15) (Mehdi Dastani, Marjan Sirjani, eds.), Springer, volume 9392, 2015. ((invited paper))
Bibtex Entry:
@InProceedings{Giese+2015,
  AUTHOR = {Giese, Holger and Vogel, Thomas and Wätzoldt, Sebastian},
  TITLE = {{Towards Smart Systems of Systems}},
  YEAR = {2015},
  BOOKTITLE = {Proceedings of the 6th International Conference on
  Fundamentals of Software Engineering (FSEN '15)},
  VOLUME = {9392},
  PAGES = {1--29},
  EDITOR = {Dastani, Mehdi and Sirjani, Marjan},
  SERIES = {Lecture Notes in Computer Science (LNCS)},
  PUBLISHER = {Springer},
  URL = {http://dx.doi.org/10.1007/978-3-319-24644-4_1},
  ABSTRACT = {Systems of Systems (SoS) have started to emerge as a
  consequence of the general trend toward the integration of beforehand
  isolated systems. To unleash the full potential, the contained systems
  must be able to operate as elements in open, dynamic, and deviating
  SoS architectures and to adapt to open and dynamic contexts while being
  developed, operated, evolved, and governed independently. We name the
  resulting advanced SoS to be smart as they must be self-adaptive at the
  level of the individual systems and self-organizing at the SoS level
  to cope with the emergent behavior at that level. In this paper we
  analyze the open challenges for the envisioned smart SoS. In addition,
  we discuss our ideas for tackling this vision with our SMARTSOS approach
  that employs open and adaptive collaborations and models at runtime. In
  particular, we focus on preliminary ideas for the construction and
  assurance of smart SoS.},
  NOTE = {(invited paper)}
}
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