Self-healing and self-adaptive systems dynamically react on changes in the environment. They enable software systems to adjust to new conditions and work optimally even in unstable environments. However, such systems have to cope with an ever increasing complexity and size of software systems. In order to handle such systems, models are an efficient means for analysis, control, and documentation. Furthermore, hierarchically structured models can make self-healing and self-adaptation manageable. In this report, we discuss several questions that address the role of models in self-healing and self-adaptive systems. We outline today\u27s challenges and present different viewpoints on the application and benefit of models
This document summarizes the results of the Working Group 3 - ``Terminology\u27\u27 - at the Dagstuh...
Rising complexity within multi-tier computing architectures remains an open problem. As complexity i...
The goal of this roadmap paper is to summarize the state-of-the-art and to identify critical challen...
Self-healing and self-adaptive systems dynamically react on changes in the environment. They enable ...
AbstractCritical Software systems must recover when they experience degradation, either through exte...
The 12 carefully reviewed papers included in this state-of-the-art survey originate from the Interna...
The 12 carefully reviewed papers included in this state-of-the-art survey originate from the Interna...
From May 10th 2009 to May 15th 2009 the Dagstuhl Seminar 09201 ``Self-Healing and Self-Adaptive Sy...
Modern software systems operate in a continuously changing environment. To keep up with these change...
Modern software systems operate in a continuously changing environment. To keep up with these change...
Rising complexity within multi-tier computing architectures remains an open problem. As complexity i...
Self-adaptive systems are distributed computing systems that can adapt their behavior and structure ...
Software\u27s ability to adapt at run-time to changing user needs, system intrusions or faults, chan...
Robotic systems are becoming increasingly complex, as their tasks and working environments become ev...
This document summarizes the results of the Working Group 3 - ``Terminology\u27\u27 - at the Dagstuh...
Rising complexity within multi-tier computing architectures remains an open problem. As complexity i...
The goal of this roadmap paper is to summarize the state-of-the-art and to identify critical challen...
Self-healing and self-adaptive systems dynamically react on changes in the environment. They enable ...
AbstractCritical Software systems must recover when they experience degradation, either through exte...
The 12 carefully reviewed papers included in this state-of-the-art survey originate from the Interna...
The 12 carefully reviewed papers included in this state-of-the-art survey originate from the Interna...
From May 10th 2009 to May 15th 2009 the Dagstuhl Seminar 09201 ``Self-Healing and Self-Adaptive Sy...
Modern software systems operate in a continuously changing environment. To keep up with these change...
Modern software systems operate in a continuously changing environment. To keep up with these change...
Rising complexity within multi-tier computing architectures remains an open problem. As complexity i...
Self-adaptive systems are distributed computing systems that can adapt their behavior and structure ...
Software\u27s ability to adapt at run-time to changing user needs, system intrusions or faults, chan...
Robotic systems are becoming increasingly complex, as their tasks and working environments become ev...
This document summarizes the results of the Working Group 3 - ``Terminology\u27\u27 - at the Dagstuh...
Rising complexity within multi-tier computing architectures remains an open problem. As complexity i...
The goal of this roadmap paper is to summarize the state-of-the-art and to identify critical challen...