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@InBook{2017/Weyns/PA,
AUTHOR = {Weyns, Danny and Bencomo, Nelly and Calinescu, Radu and C\'{a}mara, Javier and Ghezzi, Carlo and Grassi, Vincenzo and Grunske, Larse and Inverardi, Paola and Jezequel, Jean-Marc and Malek, Sam and Mirandola, Raffaela and Mori, Marco and Tambrrellii, Giordano},
TITLE = {Perpetual Assurances for Self-Adaptive Systems},
YEAR = {2017},
BOOKTITLE = {Software Engineering for Self-Adaptive Systems III. Assurances},
NUMBER = {9640},
EDITOR = {de Lemos, Rog\'{e}rio and Garlan, David and Ghezzi, Carlo and Giese, Holger},
PUBLISHER = {Springer},
TYPE = {Lecture Notes in Computer Science},
PDF = {http://acme.able.cs.cmu.edu/pubs/uploads/pdf/2016SEfSAS-final-perpetual-assurances.pdf},
ABSTRACT = {Providing assurances for self-adaptive systems is challenging. A
primary underlying problem is uncertainty that may stem from a variety of different
sources, ranging from incomplete knowledge to sensor noise and uncertain
behavior of humans in the loop. Providing assurances that the self-adaptive
system complies with its requirements calls for an enduring process spanning
the whole lifetime of the system. In this process, humans and the system jointly
derive and integrate new evidence and arguments, which we coined perpetual
assurances for self-adaptive systems. In this paper, we provide a background
framework and the foundation for perpetual assurances for self-adaptive systems.
We elaborate on the concrete challenges of offering perpetual assurances,
requirements for solutions, realization techniques and mechanisms to make solutions
suitable. We also present benchmark criteria to compare solutions. We
then present a concrete exemplar that researchers can use to assess and compare
approaches for perpetual assurances for self-adaptation},
KEYWORDS = {Assurance, Self-adaptation, Self-awareness & Adaptation} }
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