Design of Dynamically Reconfigurable Real-Time Software Using Port-Based Objects
IEEE Transactions on Software Engineering
Hard Real-Time Computing Systems: Predictable Scheduling Algorithms and Applications
Hard Real-Time Computing Systems: Predictable Scheduling Algorithms and Applications
Building product populations with software components
Proceedings of the 24th International Conference on Software Engineering
Analysis of the Execution Time Unpredictability caused by Dynamic Branch Prediction
RTAS '03 Proceedings of the The 9th IEEE Real-Time and Embedded Technology and Applications Symposium
Journal of Systems and Software - Special issue on: Component-based software engineering
Feedback Control of Computing Systems
Feedback Control of Computing Systems
ASCENT: Adaptive Self-Configuring sEnsor Networks Topologies
IEEE Transactions on Mobile Computing
Integrating Real-time Analysis in a Component Model for Embedded Systems
EUROMICRO '04 Proceedings of the 30th EUROMICRO Conference
RTAS '05 Proceedings of the 11th IEEE Real Time on Embedded Technology and Applications Symposium
Empowering configurable QoS management in real-time systems
Proceedings of the 4th international conference on Aspect-oriented software development
Aspects and components in real-time system development: Towards reconfigurable and reusable software
Journal of Embedded Computing - Real-Time and Embedded Computing Systems
Providing configurable qos management in real-time systems with qos aspect packages
Transactions on Aspect-Oriented Software Development II
An Architecture-Based Adaptation Framework for Soft Real-Time Applications
International Journal of Adaptive, Resilient and Autonomic Systems
| Hi-index | 0.00 |
In this paper we present a quality of service (QoS) adaptive framework for dynamic reconfiguration of component-based real-time systems. Our framework is light-weighted enabling reconfiguration in resource constrained embedded environments. Furthermore, it is possible to reconfigure both components and aspects of a system, hence, enabling finer tuning of a real-time system. Real-time QoS guarantees are maintained in the system and under reconfiguration by employing feedback-based scheduling methods.