Using MPI (2nd ed.): portable parallel programming with the message-passing interface
Using MPI (2nd ed.): portable parallel programming with the message-passing interface
Facilitating message exchange though middle agents
Proceedings of the first international joint conference on Autonomous agents and multiagent systems: part 2
MPI-The Complete Reference, Volume 1: The MPI Core
MPI-The Complete Reference, Volume 1: The MPI Core
A Security Architecture for Mobile Agent Based Applications
World Wide Web
A prototype infrastructure for distributed robot-agent-person teams
AAMAS '03 Proceedings of the second international joint conference on Autonomous agents and multiagent systems
Semantic enrichment for improving systems interoperability
Proceedings of the 2004 ACM symposium on Applied computing
A framework for the server-side management of conversations with web services
Proceedings of the 13th international World Wide Web conference on Alternate track papers & posters
Agent-Based Peer-to-Peer Service Networks: A Study of Effectiveness and Structure Evolution
AAMAS '04 Proceedings of the Third International Joint Conference on Autonomous Agents and Multiagent Systems - Volume 3
Dynamic Discovery and Coordination of Agent-Based Semantic Web Services
IEEE Internet Computing
Microcontroller-based implementation of parsekey+ for limited resources embedded applications
Proceedings of the 4th international conference on Security of information and networks
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Distributed processing environments such as that of a traffic management network system (TMS) can be implemented easier, faster, and secure and perform better through use of autonomous semantic agents (ASAs). For an ASA can then be realized as a semantic Web Service, a whole TMS is easily implemented through a collection of semantic Web services agents arranged according to the topology of the traffic network. It would suffice to develop a generic ASA Web service class, instantiate individual ASAs from it in numbers as required one per junction, and supply specific intersection data in semantically-enriched representation to each. Should advanced information support and control services be required, one of the ASAs may be configured slightly differently in that it acts as the operational overseer and repository for aggregated data and ASA class code. Once created, this Facilitator ASA knows the topology of the whole traffic network, identifies each intersection (and its associated ASA), can interrogate and instruct individual ASAs. Aspects of ASA design, operation, and application development using ASAs are taken into consideration. Simulations show high performance and the benefits of load distribution using ASAs.