Overview of the CORBA component model
Component-based software engineering
The Vision of Autonomic Computing
Computer
Composite Protocols for Innovative Active Services
DANCE '02 Proceedings of the 2002 DARPA Active Networks Conference and Exposition
A Component-Based Programming Model for Autonomic Applications
ICAC '04 Proceedings of the First International Conference on Autonomic Computing
Autonomic Computing
Generic architecture and mechanisms for protocol reconfiguration
Mobile Networks and Applications
A reusable object-oriented design to support self-testable autonomic software
Proceedings of the 2008 ACM symposium on Applied computing
Collective Reuse of Software Components Speeds-Up Reliability
ICSR '08 Proceedings of the 10th international conference on Software Reuse: High Confidence Software Reuse in Large Systems
Safe runtime validation of behavioral adaptations in autonomic software
ATC'11 Proceedings of the 8th international conference on Autonomic and trusted computing
AN'06 Proceedings of the First IFIP TC6 international conference on Autonomic Networking
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Over the last two decades, the advent of the Internet coupled with the diverse philosophy of networks, formed the basis for a pervasive computing environment. In the latter, the current trend is defined by the concept of autonomic computing and communications, which lies in the introduction of automated functions that enhance the intelligence of existing computing and communication systems. This concept forms a new paradigm of systems with selfware capabilities that will automatically adapt their behavior in relation to the configuration of the drastically changing environment and user preferences. In this context, this paper presents a generic architecture for the design and deployment of self-managing and self-configuring capabilities. In addition, it exploits the dynamic binding and replacement of components with autonomic capabilities. The feasibility aspects of the proposed framework are validated by means of a prototype that demonstrates the operation of plug and play solutions for an adaptable component-based protocol. Performance issues are also discussed.