The Knowledge Engineering Review
Rudder: An agent-based infrastructure for autonomic composition of grid applications
Multiagent and Grid Systems
An Infrastructure for Dynamic Composition of Grid Services
GRID '06 Proceedings of the 7th IEEE/ACM International Conference on Grid Computing
Cooperative and decentralized workflow scheduling in global grids
Future Generation Computer Systems
Using tuple-spaces to manage the storage and dissemination of spatial-temporal content
Journal of Computer and System Sciences
Ontology-based composition and matching for dynamic cloud service coordination
International Journal of Metadata, Semantics and Ontologies
An autonomic resource provisioning framework for mobile computing grids
Proceedings of the 9th international conference on Autonomic computing
Turbine: a distributed-memory dataflow engine for extreme-scale many-task applications
Proceedings of the 1st ACM SIGMOD Workshop on Scalable Workflow Execution Engines and Technologies
Turbine: A Distributed-memory Dataflow Engine for High Performance Many-task Applications
Fundamenta Informaticae - Scalable Workflow Enactment Engines and Technology
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The scale, heterogeneity, and dynamism of emerging distributed and decentralized environments make coordination a significant and challenging problem. In this paper we present Comet, a scalable peer-to-peer content-based coordination space. Comet provides a global virtual sharedspace that can be associatively accessed by all peer nodes in the system, and access is independent of the physical location of the tuples or identifiers of the host. Dynamically constructed, transient coordination spaces are also supported to enable context locality to be explicitly exploited for improving system performance. The design, implementation, and experimental evaluation of Comet using the PlanetLab platform are presented.