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Funding

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Funding

Our research at Bielefeld University is funded through the following grants. For funding at Helmholtz Munich, please see the chair holder‘s ORCID page.

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Head

Prof. Dr. Christiane Fuchs

Room V9 - 132
Phone +49 521 106-2576
Email christiane.fuchs@uni-bielefeld.de

Office

Angelika Gerent

Room V9 - 138
Phone +49 521 106-6930
Email agerent@uni-bielefeld.de

Jobs

If you are interested in a position as postdoctoral researcher, doctoral student or student assistant, please contact us!

Coping with Uncertainty in Complex Economies (CUDE)

German Research Foundation

Consortium coordinator: Frank Riedel

Further principal investigators: Yves Breitmoser, Herbert Dawid, Giorgio Ferrari, Manuel Förster, Christiane Fuchs, Dominik Karos, Max Nendel, Maren Schmeck, Anna Zaharieva

Funding Period: 2023-2027

The Research Training Group CUDE focuses on the analysis of dynamic economic models under uncertainty, e.g. in the context of labour markets or epidemics. It studies foundations of individual and social behavior under uncertainty and dynamics, focuses on implications of uncertainty  in markets and strategic interactions, and addresses questions  of policy and welfare.

More information: Project webpage

Novel statistical solutions for optimized experimental design hand in hand with domain expertise (OPTI-TRIALS)

Federal Ministry of Education and Research and European Union

Consortium coordinator: Christiane Fuchs

Project members from Bielefeld University: Julian Wäsche, Houda Yaqine

Project partners:

  • Research Unit Apoptosis in Hematopoietic Stem Cells at Helmholtz Munich (Irmela Jeremias)
  • Institute for Metallic Biomaterials at Helmholtz-Zentrum Hereon (Berit Zeller-Plumhoff)
  • Core Facility Statistical Consulting at Helmholtz Munich (Elmar Spiegel)

Funding period: 2022 - 2025 

Medical research uses laboratory animals where in vitro experiments are not an alternative. The use not only requires financial investment, but also raises ethical questions. The project aims to find ways to reduce the number of laboratory animals used in medical tests while gaining more knowledge. To this end, methods are to be developed that can deal with fewer measurement points and still provide meaningful data. Mathematical models, estimation procedures and hypothesis tests, as well as software and training courses, are being developed using the example of two selected applications, namely transplantation models in cancer research and implant models in materials research. The aim of this project is to establish such routines interdisciplinarily at the operational level of young scientists and to anchor them in the individual disciplines.

More information: Project website

AI-based decision support for antibiotic therapy (KINBIOTICS)

Federal Ministry of Health

Consortium coordinator: Philipp Cimiano

Further PIs from Bielefeld University: Christoph Dockweiler, Christiane Fuchs , Wolfgang Greiner, Claudia Hornberg, Jörn Kalinowski, Alexander Sczyrba

Funding period: 2020-2023

With increasing antibiotic resistance, tools to help prescribe specific antibiotics with minimal side effects are gaining importance. The KINBIOTICS project focuses on particularly difficult bacterial infections such as sepsis. The consortium brings together experts from the clinics as well as biotechnology and health, computer and data sciences. It aims to provide AI-based decision support to prescribe antibiotics within hours of detecting an infection.

Further information: Project website

Uncertainty Quantification - From Data to Reliable Knowledge (UQ)

Helmholtz Association, Pilot Project in Information & Data Science

Consortium coordinators: Martin FrankChristiane Fuchs

Funding period: 2019-2024

Uncertainty is ubiquitous in models and data. From stochastic modelling, where fluctuations play a central role in the dynamics of the process, to data collection, where measurement and sampling error permeate the data, it is central to understand the effects of uncertainty. The UQ project is centered on placing these elements in focus. The consortium spans 10 institutions with domain researchers, statistical and mathematical methods researchers, and research software engineers who care about quantification of uncertainty.

More information: Project webpage 

Chronic pain in patients with and without inflammatory rheumatic disease in primary and secondary care: trans-sectoral inspection, review of a new referral strategy and analysis of context factors (CRESCENT)

Anschubfonds Medizinische Forschung, Bielefeld University

Principal investigators: Martin Rudwaleit (Klinikum Bielefeld), Christiane Fuchs, Sebastian Rehberg (Bethel), Wilfried Witte (Bethel)

Funding period: 2020-2023

Chronic pain in the musculoskeletal system is a frequent reason for a visit to the doctor, for sick leave, assessments and retirement. The causes are degenerative changes, inflammatory rheumatic diseases and chronic pain syndromes such as fibromyalgia. It is sometimes difficult to differentiate between these diseases in primary care, which is why many patients are referred to rheumatology, leading to long waiting times. The project pursues the goal of an improved, computer-supported preselection for urgent appointments in rheumatology with simultaneous detection of a possible fibromyalgia syndrome already in primary care.

It tests a new, simple referral path with standardised assessments in primary medicine, rheumatology and pain therapy for the analysis of context factors in fibromyalgia.

Economic Policy in Complex Environments (EPOC)

Innovative Training Network, Horizon 2020

Consortium coordinator: Herbert Dawid

Further PIs from Bielefeld University: Manuel Förster, Christiane Fuchs, Roland Langrock

Funding period: 2021-2025

Many of the main current economic and social challenges facing Europe are characterised by complex dynamic patterns. Examples include the search for appropriate policy measures to mitigate climate change or to manage the development, diffusion and economic impact of new technologies. The Innovative Training Network aims at promoting the state of the art and the applicability of computationally intensive methods for decision and policy analysis and their application in the fields of climate change and innovation. Next to Bielefeld University, the network includes universities from the Netherlands, Spain, Denmark, Italy and France.

Statistical postprocessing of ensemble forecasts for various weather quantities

Grant Holder: Annette Möller

Further members: Sándor Baran, Patricia Szokol, Jürgen Groß, Roman Schefzik, Sebastian Lerch, Stephan Hemri

Funding Period: 2018-2023

Accurate prediction of future weather events is increasingly important in many areas of society and economy. State-of-the art is the use of so-called numerical weather prediction (NWP) models are typically used for weather prediction and obtain an ensemble of forecasts based on multiple runs of the model. However, these ensemble forecasts typically lack proper calibration and thus require postprocessing by statistical models. These models are applied to the forecasts in conjunctions with observations in order to improve the quality of the forecasts. In addition, many statistical postprocessing approaches obtain a probabilistic forecast, often in terms of a full predictive probability distribution, which allows to assess and quantify forecast uncertainty.

In the Scientific Network " Statistical Postprocessing of ensemble forecasts for various weather variables" funded by the German Research Council (DFG) a group of international researchers is working jointly on developing and implementing classical statistical methods as well es more modern methods from the area of machine learning for probabilistic forecasting of different weather variables. An additional focus of the research is to incorporate multivariate dependencies into the postprocessing models in order to obtain physically coherent forecasts.

Big Data Beauty – The aesthetic potential of large numbers and algorithms

Fellowship for innovations in digital university teaching, Stifterverband für die Deutsche Wissenschaft

Grant holders: Turid Frahnow, Johannes Voit

Funding period: 2018-2019

The digital revolution has brought us not only a multitude of technical innovations, but also a flood of data that exceeds human capacity. The algorithms used to analyze this data are ubiquitous, whether in navigation devices or in weather forecasting. But algorithms are by no means just abstract procedures, they often have a very practical meaning for everyday actions. And beyond their practical use, they can even hold artistic potential. As part of this project, we held an interdisciplinary seminar in which the aesthetic potential of algorithms and large numbers was explored. Outcomes were presented at the jubilee festival in September 2019. We have also contributed an exhibit piece to the university's showroom a sounding of a sorting algorithm using sounds from the university building.

The project was also financially supported by the University of Bielefeld as a jubilee project.

Some student projects from the seminar are presented here (in German).

Our main building: success factor for interdisciplinary research or architectural sin?

Scientific jubilee project funded by the Faculty of Business Administration and Economics at Bielefeld University

Grant holders: Hannah Busen, Christiane Fuchs

Funding period: 2018-2019

It seems evident that spatial proximity between researchers may lead to more frequent or more intense collaboration than between scientists who work at large distance from each other. We hypothesize that the spatial organization within a research campus or even within a building influences interdisciplinary work. In a collaboration network study, we investigate which distance matters, how much researchers are influenced by people working around them and how scientific publishing changes depending on the heterogeneity among authors.

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