Advanced CORBA programming with C++
Advanced CORBA programming with C++
Developing multi-agent systems with a FIPA-compliant agent framework
Software—Practice & Experience
The Stability, Scalability and Performance of Multi-agent Systems
BT Technology Journal
2K: A Distributed Operating System for Dynamic Heterogeneous Environments
HPDC '00 Proceedings of the 9th IEEE International Symposium on High Performance Distributed Computing
CALM: An Intelligent Agent-based Middleware for Community Computing
SEUS-WCCIA '06 Proceedings of the The Fourth IEEE Workshop on Software Technologies for Future Embedded and Ubiquitous Systems, and the Second International Workshop on Collaborative Computing, Integration, and Assurance (SEUS-WCCIA'06)
A survey of software infrastructures and frameworks for ubiquitous computing
Mobile Information Systems
A survey on web services composition
International Journal of Web and Grid Services
Hi-index | 0.00 |
Multi-agent techniques have been continuously evolving as ubiquitous and pervasive computing emerges as a key post-internet paradigm. In the ubiquitous environment, the applications need to exchange the requests asynchronously using an event-based model. While interoperability between the agent platform and event service platform is important for the applications, it has not received much attention yet. In this paper, we propose the Message Transport Interface (MTI), which allows communication between the JADE platform and CORBA-based platform supporting event service. We also develop a new information bus adapter for augmenting the omniEvent service, which is used for autonomic administration of the channels. The developed system has been implemented in both C++ and Java for Linux and Windows platform, including the pocket PC adapter for mobile computing. Experimental results reveal that the proposed schemes allow much smaller process time than the existing omniEvent service. They are parts of a ubiquitous computing middleware called Component-based Autonomic Layered Middleware (CALM), which is currently under development.