Scientists increasingly use workflows to represent and share their computational experiments. Because of their declarative nature, focus on pre-existing component composition and the availability of visual editors, workflows provide a valuable start for creating user-friendly environments for end user scientists. However, there is still work to be done to create even more user-friendly environments. In this paper, we aim to identify key constructs that intelligent workflow systems could support to allow for more natural workflow representations. These constructs are identified through a comparison of bioinformatics workflows and their associated natural language descriptions obtained from the virtual research environment myExperiment
Scientific data analyses often combine several computational tools in automated pipelines, or workfl...
Modern scientific collaborations have opened up the opportunity to solve complex problems that requi...
myGrid assists bioinformaticians in designing and executing in silico experiments using the Grid’s r...
Workflows systems are steadily finding their way into the work practices of scientists. This is part...
Workflows are useful to perform data analysis and integration in systems biology. Workflow managemen...
Workflows have emerged as a common tool for scientists toexpress their computational analyses. While...
Workflow technology continues to play an important role as a means for specifying and enacting compu...
We introduce the concept of Canonical Workflow Building Blocks (CWBB), a methodology of describing a...
Automation in science is increasingly marked by the use of workflow technology. The sharing of workf...
We introduce the concept of Canonical Workflow Building Blocks (CWBB), a methodology of describing a...
Abstract. Workflow management systems (WfMSs) are useful tools for bioinformaticians. As experiences...
Scientific workflow systems have become a necessary tool for many applications, enabling the composi...
Workflow management systems (WfMSs) are useful tools for bioinformaticians. As experiences with usin...
Workflow management systems (WfMSs) are useful tools for bioinformaticians. As experiences with usin...
Increasingly scientists are using collections of software tools in their research. These tools are t...
Scientific data analyses often combine several computational tools in automated pipelines, or workfl...
Modern scientific collaborations have opened up the opportunity to solve complex problems that requi...
myGrid assists bioinformaticians in designing and executing in silico experiments using the Grid’s r...
Workflows systems are steadily finding their way into the work practices of scientists. This is part...
Workflows are useful to perform data analysis and integration in systems biology. Workflow managemen...
Workflows have emerged as a common tool for scientists toexpress their computational analyses. While...
Workflow technology continues to play an important role as a means for specifying and enacting compu...
We introduce the concept of Canonical Workflow Building Blocks (CWBB), a methodology of describing a...
Automation in science is increasingly marked by the use of workflow technology. The sharing of workf...
We introduce the concept of Canonical Workflow Building Blocks (CWBB), a methodology of describing a...
Abstract. Workflow management systems (WfMSs) are useful tools for bioinformaticians. As experiences...
Scientific workflow systems have become a necessary tool for many applications, enabling the composi...
Workflow management systems (WfMSs) are useful tools for bioinformaticians. As experiences with usin...
Workflow management systems (WfMSs) are useful tools for bioinformaticians. As experiences with usin...
Increasingly scientists are using collections of software tools in their research. These tools are t...
Scientific data analyses often combine several computational tools in automated pipelines, or workfl...
Modern scientific collaborations have opened up the opportunity to solve complex problems that requi...
myGrid assists bioinformaticians in designing and executing in silico experiments using the Grid’s r...