Autonomic systems are typically distributed computing systems whose components act autonomously and can adapt to environment changes. We call them ensembles if they have some of the following characteristics: Large numbers of nodes Heterogeneous Operating in open and non-deterministic environments Complex interactions between nodes and with humans or other systems Dynamic adaptation to changes in the environment
Autonomic communication focuses on distributed systems and management of network resources at both t...
Designing cooperative autonomic components andstudying their possible interactions when operating in...
Smart systems have become key solutions for many application areas including autonomous farming. Th...
Today’s software systems are becoming increasingly distributed and decentralized and have to adapt a...
The ASCENS project deals with designing systems as ensembles of adaptive components. Among the outpu...
Today’s developers often face the demanding task of developing software for ensembles: systems with ...
Component ensembles are a promising way of building self-aware autonomic adaptive systems. This appr...
Component ensembles are a promising way of building self-aware autonomic adaptive systems. This appr...
Abstract. Ensembles of autonomic components are a novel software engineering paradigm for developmen...
Collective autonomic systems are adaptive, open-ended, highly parallel, interactive and distributed ...
Today’s and tomorrow’s multiprocessing or distributed comput-ing deployments comprise large ensemble...
AbstractMany technical challenges exist in the development of fully autonomic computing systems. Aut...
In recent years, a plethora of electronic devices embedded into everyday objects and able to interf...
Software systems have evolved from being ‘stand-alone systems’ to ‘systems of systems’ to meet the c...
Software-intensive cyber-physical systems have to deal with massive numbers of components, featuring...
Autonomic communication focuses on distributed systems and management of network resources at both t...
Designing cooperative autonomic components andstudying their possible interactions when operating in...
Smart systems have become key solutions for many application areas including autonomous farming. Th...
Today’s software systems are becoming increasingly distributed and decentralized and have to adapt a...
The ASCENS project deals with designing systems as ensembles of adaptive components. Among the outpu...
Today’s developers often face the demanding task of developing software for ensembles: systems with ...
Component ensembles are a promising way of building self-aware autonomic adaptive systems. This appr...
Component ensembles are a promising way of building self-aware autonomic adaptive systems. This appr...
Abstract. Ensembles of autonomic components are a novel software engineering paradigm for developmen...
Collective autonomic systems are adaptive, open-ended, highly parallel, interactive and distributed ...
Today’s and tomorrow’s multiprocessing or distributed comput-ing deployments comprise large ensemble...
AbstractMany technical challenges exist in the development of fully autonomic computing systems. Aut...
In recent years, a plethora of electronic devices embedded into everyday objects and able to interf...
Software systems have evolved from being ‘stand-alone systems’ to ‘systems of systems’ to meet the c...
Software-intensive cyber-physical systems have to deal with massive numbers of components, featuring...
Autonomic communication focuses on distributed systems and management of network resources at both t...
Designing cooperative autonomic components andstudying their possible interactions when operating in...
Smart systems have become key solutions for many application areas including autonomous farming. Th...