by Bradley Schmerl, Jesper Andersson, Thomas Vogel, Myra B. Cohen, Cecilia M. F. Rubira, Yuriy Brun, Alessandra Gorla, Franco Zambonelli, Luciano Baresi
Abstract:
Self-adaptive software systems adapt to changes in the environment, in the system itself, in their requirements, or in their business objectives. Typically, these systems attempt to maintain system goals at run time and often provide assurance that they will meet their goals under dynamic and uncertain circumstances. While significant research has focused on ways to engineer self-adaptive capabilities into both new and legacy software systems, less work has been conducted on how to assure that self-adaptation maintains system goals. For traditional, especially safety-critical software systems, assurance techniques decompose assurances into sub-goals and evidence that can be provided by parts of the system. Existing approaches also exist for composing assurances, in terms of composing multiple goals and composing assurances in systems of systems. While some of these techniques may be applied to self-adaptive systems, we argue that several significant challenges remain in applying them to self-adaptive systems in this chapter. We discuss how existing assurance techniques can be applied to composing and decomposing assurances for self-adaptive systems, highlight the challenges in applying them, summarize existing research to address some of these challenges, and identify gaps and opportunities to be addressed by future research.
Reference:
Challenges in Composing and Decomposing Assurances for Self-Adaptive Systems (Bradley Schmerl, Jesper Andersson, Thomas Vogel, Myra B. Cohen, Cecilia M. F. Rubira, Yuriy Brun, Alessandra Gorla, Franco Zambonelli, Luciano Baresi), Chapter in Software Engineering for Self-Adaptive Systems III: Assurances (Rogério de Lemos, David Garlan, Carlo Ghezzi, Holger Giese, eds.), Springer, volume tbd, 2017. ((to appear))
Bibtex Entry:
@InCollection{Schmerl+2016,
AUTHOR = {Schmerl, Bradley and Andersson, Jesper and Vogel, Thomas and
Cohen, Myra B. and Rubira, Cecilia M. F. and Brun, Yuriy and Gorla,
Alessandra and Zambonelli, Franco and Baresi, Luciano},
TITLE = {{Challenges in Composing and Decomposing Assurances for
Self-Adaptive Systems}},
YEAR = {2017},
BOOKTITLE = {Software Engineering for Self-Adaptive Systems III:
Assurances},
VOLUME = {tbd},
PAGES = {tbd},
EDITOR = {de Lemos, Rogério and Garlan, David and Ghezzi, Carlo and
Giese, Holger},
SERIES = {Lecture Notes in Computer Science (LNCS)},
PUBLISHER = {Springer},
ABSTRACT = {Self-adaptive software systems adapt to changes in the
environment, in the system itself, in their requirements, or in their
business objectives. Typically, these systems attempt to maintain
system goals at run time and often provide assurance that they will
meet their goals under dynamic and uncertain circumstances. While
significant research has focused on ways to engineer self-adaptive
capabilities into both new and legacy software systems, less work has
been conducted on how to assure that self-adaptation maintains system
goals. For traditional, especially safety-critical software systems,
assurance techniques decompose assurances into sub-goals and evidence
that can be provided by parts of the system. Existing approaches also
exist for composing assurances, in terms of composing multiple goals
and composing assurances in systems of systems. While some of these
techniques may be applied to self-adaptive systems, we argue that
several significant challenges remain in applying them to self-adaptive
systems in this chapter. We discuss how existing assurance techniques
can be applied to composing and decomposing assurances for self-adaptive
systems, highlight the challenges in applying them, summarize existing
research to address some of these challenges, and identify gaps and
opportunities to be addressed by future research.},
NOTE = {(to appear)}
}