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About |
Project description and team members of the project Opening Reproducible Research |
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{% endcomment %}Open access is not only a form of publishing such that research papers become available to the large public free of charge, it also refers to a trend in science that the act of doing research becomes more open and transparent. Collected or generated research data as well as procedures are published alongside a research paper.
Increasingly, scientific results are generated by numerical manipulation of data that were already collected, and may involve simulation experiments that are entirely carried out computationally. Reproducibility of research findings, the ability to repeat experimental procedures and confirm previously found results, is at the heart of the scientific method. As opposed to the collection of experimental data in labs or nature, computational experiments lend themselves very well for reproduction. Some of the reasons why scientists do not publish data and computational procedures that allow reproduction will be hard to change, e.g. privacy concerns in the data, fear for embarrassment or of losing a competitive advantage. Others reasons however involve technical aspects, and include the lack of standard procedures to publish such information and the lack of benefits after publishing them. We aim to resolve these two technical aspects.
We propose a system that supports the evolution of scientific publications from static papers into dynamic, executable research documents and aim for the main aspects of open access: improving the exchange of, facilitating productive access to, and simplifying reuse of research results that are published over the internet.
Building on existing open standards and software, this project develops standards and tools for executable research documents, and will demonstrate and evaluate these, initially focusing on the geosciences domains. Building on recent advances in mainstream IT, o2r envisions a new architecture for storing, executing and interacting with the original analysis environment alongside the corresponding research data and manuscript. o2r bridges the gaps between long-term archiving, practical geoscientific research, and publication media.
This is the o2r team in alphabetical order.
- Jim Jones (ULB)
- Dr. Stephanie Klötgen (ULB)
- Markus Konkol (ifgi)
- Jan Koppe (ifgi, student assistant, 2016-03 to 2016-08)
- Prof. Dr. Christian Kray (ifgi)
- Dr. Dirk Kussmann (ULB)
- Jörg Lorenz (ULB)
- Daniel Nüst (ifgi)
- Prof. Dr. Edzer Pebesma (ifgi)
- Holger Przibytzin (ULB)
- Dr. Marc Schutzeichel (ULB)
- Jan Suleiman (ifgi, student assistant)
- Dr. Beate Tröger (ULB)
The o2r project is connected to external partners since its inception, and the group has been extended since then. They come from different disciplines and regularly enrich discussions with their insights. These are the partners in alphabetical order.
- Dr. Xenia van Edig (Business Development, Copernicus.org)
- Dr. Tomi Kauppinen (Department of Computer Science, Aalto University School of Science, Finland)
- Prof. Dr. Werner Kuhn (Center for Spatial Studies, University of California Santa Barbara, Santa Barbara, CA)
- Dr. Hylke Koers (Head of Content Innovation, Elsevier)
