Evaluating the Performance of Middleware Load Balancing Strategies
EDOC '04 Proceedings of the Enterprise Distributed Object Computing Conference, Eighth IEEE International
Towards an Approach forWeb services Substitution
IDEAS '06 Proceedings of the 10th International Database Engineering and Applications Symposium
DRESR: Dynamic Routing in Enterprise Service Bus
ICEBE '07 Proceedings of the IEEE International Conference on e-Business Engineering
Requirements-driven approach to service-oriented architecture implementation
MIV'06 Proceedings of the 6th WSEAS International Conference on Multimedia, Internet & Video Technologies
Service oriented architecture for enterprise applications
SEPADS'06 Proceedings of the 5th WSEAS International Conference on Software Engineering, Parallel and Distributed Systems
Data neighboring in local load balancing operations
ICCOMP'05 Proceedings of the 9th WSEAS International Conference on Computers
Designing an Adaptive CORBA Load Balancing Service Using TAO
IEEE Distributed Systems Online
A runtime-adaptable service bus design for telecom operations support systems
IBM Systems Journal
Web services research challenges, limitations and opportunities
WSEAS Transactions on Information Science and Applications
Dynamic Reliable Service Routing in Enterprise Service Bus
APSCC '08 Proceedings of the 2008 IEEE Asia-Pacific Services Computing Conference
Addressing QoS issues in service based systems through an adaptive ESB infrastructure
Proceedings of the 6th Workshop on Middleware for Service Oriented Computing
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ESB is a core middleware technology which can support the integration of services according to the Service Oriented Architecture. A major responsibility of ESB is to route messages to heterogeneous services. However, conventional ESBs support only static routing, i.e. the service to which a message is sent must be fixed a priori. Thus, even if there are many services that can satisfy the same request, the request is always sent to the same service without considering the service status, e.g., load, at that time. This situation may lead to a low throughput performance on the service side and low satisfaction on the consumer side. This paper aims to enhance the ESB capability by supporting load balancing. Our approach focuses on balancing among a group of different services with the same function. We introduce the concept of service type and show the results of an experiment.