JXTA: Java P2P Programming
JXTA
Kepler: An Extensible System for Design and Execution of Scientific Workflows
SSDBM '04 Proceedings of the 16th International Conference on Scientific and Statistical Database Management
Taverna: lessons in creating a workflow environment for the life sciences: Research Articles
Concurrency and Computation: Practice & Experience - Workflow in Grid Systems
Workflows for e-Science: Scientific Workflows for Grids
Workflows for e-Science: Scientific Workflows for Grids
Pegasus: A framework for mapping complex scientific workflows onto distributed systems
Scientific Programming
Workflows and e-Science: An overview of workflow system features and capabilities
Future Generation Computer Systems
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In this paper we present the OMU Workflow platform and underlaying toolkit we developed based on the Triana Workflows environment, for implementing the Workflow Management of Paramedical Emergency Operations scenario within an intelligent context-aware mobile distributed Peer-to-Grid (P2G) infrastructure. The underlying OMU toolkit is a stand-alone system and the core components are independent of any workflow environment. We discuss the novel hybrid P2G architectural model we designed consolidating Peer-to-Peer and Grid computing research, providing new solutions to a dynamic distributed data-driven scenario that could radically increase the volume and timeliness of available information for decision support during the rescue operations. We also discuss the application of our workflow platform to other domain problems in our future work and the next steps in the path of testing and validation.