Treating autonomic systems as solving individual, isolated problems misses the opportunity to consider adaptation as an object of study in its own right. We propose a grand challenge of supporting adaptation in an open and stable manner, embracing the evolution of system goals and constraints over time without sacrificing our ability to describe, implement and analyse autonomic solutions. We suggest a possible approach using topology, and comment on the impact and problems of this novel approach
A unifying system-theoretic view of adaptation in dynamical systems for researchers and graduates in...
How can a system become better adapted over time without natural selection? Although some argue for ...
Increasingly, software needs to dynamically adapt its behavior at run-time in response to changing ...
peer-reviewedTreating autonomic systems as solving individual, isolated problems misses the opportu...
In this position paper we present a conceptual vision of adaptation, a key feature of autonomic sys...
In this position paper we present a conceptual vision of adaptation, a key feature of autonomic syst...
Autonomic systems present unique design challenges, in that their individual adaptive components may...
Autonomic systems are able to adapt themselves to unpredicted and unexpected situations. Such adapta...
An autonomic system is composed of ensembles of heterogeneous autonomic components in which large s...
Abstract. In this position paper we present a conceptual vision of adap-tation, a key feature of aut...
Abstract—Dynamic environments present an everlasting challenge for any system, be it the one emergin...
Control systems must increasingly be designed to involve collections of hardware and software compon...
This panel paper sets out to discuss what self-adaptation means, and to explore the extent to which...
This paper proposes to reconcile two perspectives on behavioral adaptation commonly taken at differe...
ABSTRACT Autonomic systems undergo dynamic compositional adaptation that often require state transfe...
A unifying system-theoretic view of adaptation in dynamical systems for researchers and graduates in...
How can a system become better adapted over time without natural selection? Although some argue for ...
Increasingly, software needs to dynamically adapt its behavior at run-time in response to changing ...
peer-reviewedTreating autonomic systems as solving individual, isolated problems misses the opportu...
In this position paper we present a conceptual vision of adaptation, a key feature of autonomic sys...
In this position paper we present a conceptual vision of adaptation, a key feature of autonomic syst...
Autonomic systems present unique design challenges, in that their individual adaptive components may...
Autonomic systems are able to adapt themselves to unpredicted and unexpected situations. Such adapta...
An autonomic system is composed of ensembles of heterogeneous autonomic components in which large s...
Abstract. In this position paper we present a conceptual vision of adap-tation, a key feature of aut...
Abstract—Dynamic environments present an everlasting challenge for any system, be it the one emergin...
Control systems must increasingly be designed to involve collections of hardware and software compon...
This panel paper sets out to discuss what self-adaptation means, and to explore the extent to which...
This paper proposes to reconcile two perspectives on behavioral adaptation commonly taken at differe...
ABSTRACT Autonomic systems undergo dynamic compositional adaptation that often require state transfe...
A unifying system-theoretic view of adaptation in dynamical systems for researchers and graduates in...
How can a system become better adapted over time without natural selection? Although some argue for ...
Increasingly, software needs to dynamically adapt its behavior at run-time in response to changing ...