CFP: Data Science in Climate and Climate Impact Research. Conceptual Issues, Challenges, and Opportunities.
Submission deadline: March 15, 2020
Conference date(s):
August 20, 2020 - August 21, 2020
Conference Venue:
Department of Environmental Systems Science, ETH Zürich, Switzerland
Zürich,
Switzerland
Topic areas
Details
Workshop "Data Science in Climate and Climate Impact Research" Main content Conceptual Issues, Challenges, and Opportunities Conference Venue and Date:
ETH Zürich, Zentrum.
August 20 (afternoon) and 21 (full day), 2020.
Organizers
Benedikt Knüsel, Marius Zumwald, Christoph Baumberger, David Bresch, Reto Knutti, ETH Zürich
Disciplines
- Climate Science
- Climate Impact Research
- Philosophy of Science, Philosophy of Technology
- Environmental Data Science
Details
In recent decades, the production and storage of data about practically every aspect of human life has increased. This concerns scientific research in general, including environmental sciences. Increasing volumes of data help environmental scientists to observe more phenomena at a finer spatial and temporal scale and to model phenomena with machine learning. These new possibilities raise a host of interesting methodological questions. In a policy-relevant field such as climate science and climate impact research, transparency of and confidence in results is key. However, it is unclear how these features can be achieved when employing data science. Furthermore, data science projects often require extensive interdisciplinary collaboration in order to combine expertise in handling and analyzing data and domain expertise. This helps to obtain meaningful insights from the data. However, this interdisciplinarity can be associated with new challenges.
There are numerous examples of interesting data-science projects in climate and climate impact research, which have addressed a variety of purposes. For example, innovative methods that combine physical modeling and machine learning might be employed to analyze environmental data while ensuring interpretability and physical plausibility of the models. New forms of data might help to measure environmental conditions and monitor policy implementation or to monitor disaster response and climate change adaptation. But how should these attempts be evaluated? What role does interdisciplinary collaboration play in these efforts? What purposes are data sciences tools most fruitful for and under what conditions?
At this interdisciplinary conference, we aim to bring together researchers from all climate-related subdisciplines (including environmental social science and climate impact research), philosophers, and environmental data scientists to discuss questions like these. While case studies are welcome, the emphasis on the talks should be on conceptual issues.
Topics
Questions that can be discussed include (but are not limited to) the following:
- What purposes are new kinds of data most fruitful for?
- Which research questions can be addressed using machine learning? Is machine learning equally attractive for understanding as it is for prediction?
- How should machine learning models and new forms of data be evaluated in order to assess their reliability? Does this depend on the purpose of a research project?
- What is the role of scientific theories and domain-specific background knowledge when constructing and applying data-science tools?
- How does interpretability/transparency affect the evaluation of the models and data? What is the role of interpretable algorithms and well-documented data? How does this depend on the specific purpose?
- How should uncertainties arising from new sources or forms of data or automated data analysis tools be understood and characterized? How can they be handled in decision-making?
- What is the relationship between transparency of models and data on the one hand and uncertainty on the other hand?
- How should interdisciplinary teams for environmental data-science projects be organized? What kind of collaboration is needed?
Keynotes:
From Philosophy:
From scientific practice:
- Markus Reichstein (Max Planck Institute for Biogeochemistry, Jena)
- Nick Obradovich (Max Planck Institute for Human Development, Berlin)
Dates & Deadlines
Abstracts (max. 300 words excluding references) for slots of 30 minutes (20 minutes of presentation plus discussion of 10 minutes) should be submitted until March 15, 2020. Please prepare your abstract for anonymous review (no information identifying the authors). We will notify all applicants by April 1, 2020.
The workshop fee is CHF 100 and will cover the full participation, food, and refreshments during the conference. A conference dinner will take place after the first day of the workshop, which is not covered by the fee.
For submissions: Please submit your abstract to [email protected].
For questions regarding the conference, please contact Benedikt Knüsel ([email protected]).