UTOPIA— user-friendly tools for operating informatics applications: Conference Reviews
Comparative and Functional Genomics
Taverna: lessons in creating a workflow environment for the life sciences: Research Articles
Concurrency and Computation: Practice & Experience - Workflow in Grid Systems
An Architecture for Visualisation and Interactive Analysis of Proteins
CMV '06 Proceedings of the Fourth International Conference on Coordinated & Multiple Views in Exploratory Visualization
The myGrid ontology: bioinformatics service discovery
International Journal of Bioinformatics Research and Applications
Deciding semantic matching of stateless services
AAAI'06 proceedings of the 21st national conference on Artificial intelligence - Volume 2
On characterising and identifying mismatches in scientific workflows
DILS'06 Proceedings of the Third international conference on Data Integration in the Life Sciences
Feta: a light-weight architecture for user oriented semantic service discovery
ESWC'05 Proceedings of the Second European conference on The Semantic Web: research and Applications
On the secure sharing and aggregation of data to support systems biology research
DILS'10 Proceedings of the 7th international conference on Data integration in the life sciences
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In silico experiments have hitherto required ad hoc collections of scripts and programs to process and visualise biological data, consuming substantial amounts of time and effort to build, and leading to tools that are difficult to use, are architecturally fragile and scale poorly. With examples of the systems applied to real biological problems, we describe two complimentary software frameworks that address this problem in a principled manner; myGrid/Taverna, a workflow design and enactment environment enabling coherent experiments to be built, and UTOPIA, a flexible visualisation system to aid in examining experimental results.