Add to ORKGAbstract: Workflows are increasingly used in science to manage complex computations and data processing at large scale. Intelligent workflow systems provide assistance in setting up parameters and data, validating workflows created by users, and automating the generation of workflows from high-level user guidance. These systems use semantic workflows that extend workflow representations with semantic constraints that express characteristics of the data and analytic models. Reasoning algorithms propagate these semantic constraints throughout the workflow structure, select executable components for underspecified steps, and suggest parameter values. Semantic workflows also enhance provenance records with abstract steps that reflect the overa...
Capturing provenance about artifacts produced by distributed scientific processes is a challenging t...
Abstract—An increasing number of scientific workflow systems are providing support for the automated...
Scientific experiments are becoming increasingly large and complex, with a commensurate increase in ...
The automated tracking and storage of provenance information promises to be a major advantage of sci...
Scientific workflows have recently emerged as a new paradigm for representing and managing complex d...
This thesis investigates adaptive provenance collection in the context of scientific workflow system...
Integrated provenance support promises to be a chief advantage of scientific workflow systems over s...
Scientific workflows may include automated decision steps, for instance to accept/reject certain dat...
Many scientists are using workflows to systematically design and run computational experiments. Once...
Background The automation of data analysis in the form of scientific workflows has become a widely ...
Data provenance is key to understanding and interpreting the results of scientific experiments. This...
Scientific workflows and their supporting systems are becoming increasingly popular for compute-inte...
Scientists can facilitate data intensive applications to study and understand the behavior of a comp...
Workflow forms a key part of many existing Service Oriented applications, involving the integration ...
Scientific research has become very data and compute intensive because of the progress in data acqui...
Capturing provenance about artifacts produced by distributed scientific processes is a challenging t...
Abstract—An increasing number of scientific workflow systems are providing support for the automated...
Scientific experiments are becoming increasingly large and complex, with a commensurate increase in ...
The automated tracking and storage of provenance information promises to be a major advantage of sci...
Scientific workflows have recently emerged as a new paradigm for representing and managing complex d...
This thesis investigates adaptive provenance collection in the context of scientific workflow system...
Integrated provenance support promises to be a chief advantage of scientific workflow systems over s...
Scientific workflows may include automated decision steps, for instance to accept/reject certain dat...
Many scientists are using workflows to systematically design and run computational experiments. Once...
Background The automation of data analysis in the form of scientific workflows has become a widely ...
Data provenance is key to understanding and interpreting the results of scientific experiments. This...
Scientific workflows and their supporting systems are becoming increasingly popular for compute-inte...
Scientists can facilitate data intensive applications to study and understand the behavior of a comp...
Workflow forms a key part of many existing Service Oriented applications, involving the integration ...
Scientific research has become very data and compute intensive because of the progress in data acqui...
Capturing provenance about artifacts produced by distributed scientific processes is a challenging t...
Abstract—An increasing number of scientific workflow systems are providing support for the automated...
Scientific experiments are becoming increasingly large and complex, with a commensurate increase in ...