Neural network design
Reconfigurable Context-Sensitive Middleware for Pervasive Computing
IEEE Pervasive Computing
Adaptive Middleware for Ubiquitous Computing Environments
DIPES '02 Proceedings of the IFIP 17th World Computer Congress - TC10 Stream on Distributed and Parallel Embedded Systems: Design and Analysis of Distributed Embedded Systems
Situation-Aware Contract Specification Language for Middleware for Ubiquitous Computing
FTDCS '03 Proceedings of the The Ninth IEEE Workshop on Future Trends of Distributed Computing Systems
QoS and Contention-Aware Multi-Resource Reservation
HPDC '00 Proceedings of the 9th IEEE International Symposium on High Performance Distributed Computing
An Active Middleware to Control QoS Level in Multimedia Services
FTDCS '01 Proceedings of the 8th IEEE Workshop on Future Trends of Distributed Computing Systems
Context-Sensitive Middleware for Real-Time Software in Ubiquitous Computing Environments
ISORC '01 Proceedings of the Fourth International Symposium on Object-Oriented Real-Time Distributed Computing
QoS-aware middleware for ubiquitous and heterogeneous environments
IEEE Communications Magazine
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This paper presents the design of the AFTS(An Adaptive Fault Tolerance System), which is running on situation-aware middleware. Situation-aware middleware provides standardized communication protocols to inter-operate an application with others under dynamically changing situations. Since the application needs of middleware services and computing environment (resources) keep changing as the application change, it is difficult to analyze: whether it is possible that all Quality of Service (QoS) requirements are met, and what QoS requirements have tradeoff relationships. In this paper, we propose a QoS resource error detection-recovery model called “AFTS” for situation-aware middleware. An adaptive Video On Demand (VOD) system is used as an illustrative example of the AFTS model and its resource error detection-recovery.