Models can help software engineers to reason about design-time decisions before implementing a system. This paper focuses on models that deal with non-functional properties, such as reliability and performance. To build such models, one must rely on numerical estimates of various parameters provided by domain experts or extracted by other similar systems. Unfortunately, estimates are seldom correct. In addition, in dynamic environments, the value of parameters may change over time. We discuss an approach that addresses these issues by keeping models alive at run time and feeding a Bayesian estimator with data collected from the running system, which produces updated parameters. The updated model provides an increasingly better representatio...
An important challenge in dynamic adaptation of a soft-ware system is to prevent inconsistencies (fa...
A self-adaptive system adjusts its configuration to tolerate changes in its operating environment. T...
An effective design of effective and efficient self-adaptive systems may rely on several existing ap...
Models can help software engineers to reason about design-time decisions before implementing a syste...
Models can help software engineers to reason about design-time decisions before implementing a syste...
Modern software systems are often required to adapt their behavior at runtime in order to maintain o...
Constructing adaptive software that is capable of changing behavior at runtime is a challenging soft...
Modern software systems are often required to adapt their behavior at runtime in order to maintain o...
Modern software-intensive systems often interact with an environment whose behavior changes over tim...
An important challenge in dynamic adaptation of a soft-ware system is to prevent inconsistencies (fa...
An increasing number of modern software systems need to be adapted at runtime while they are still e...
© 2016 IEEE. Modern software systems are subject to uncertainties, such as dynamics in the availabil...
International audienceA self-adaptive system adjusts its configuration to tolerate changes in its op...
Adapting software to user needs and environmental constraints at run-time requires extending the sof...
An important challenge in dynamic adaptation of a soft-ware system is to prevent inconsistencies (fa...
A self-adaptive system adjusts its configuration to tolerate changes in its operating environment. T...
An effective design of effective and efficient self-adaptive systems may rely on several existing ap...
Models can help software engineers to reason about design-time decisions before implementing a syste...
Models can help software engineers to reason about design-time decisions before implementing a syste...
Modern software systems are often required to adapt their behavior at runtime in order to maintain o...
Constructing adaptive software that is capable of changing behavior at runtime is a challenging soft...
Modern software systems are often required to adapt their behavior at runtime in order to maintain o...
Modern software-intensive systems often interact with an environment whose behavior changes over tim...
An important challenge in dynamic adaptation of a soft-ware system is to prevent inconsistencies (fa...
An increasing number of modern software systems need to be adapted at runtime while they are still e...
© 2016 IEEE. Modern software systems are subject to uncertainties, such as dynamics in the availabil...
International audienceA self-adaptive system adjusts its configuration to tolerate changes in its op...
Adapting software to user needs and environmental constraints at run-time requires extending the sof...
An important challenge in dynamic adaptation of a soft-ware system is to prevent inconsistencies (fa...
A self-adaptive system adjusts its configuration to tolerate changes in its operating environment. T...
An effective design of effective and efficient self-adaptive systems may rely on several existing ap...