PhD Student (f/m/d): Data-Driven Simulations of Tissue Dynamics in Developing Embryos
As member of the Helmholtz Association of German Research Centers, the HZDR employs about 1,200 people. The Center's focus is on interdisciplinary research in the areas energy, health and matter.
The Center for Advanced Systems Understanding (CASUS) is a German-Polish research center for data-intensive digital systems research. We combine innovative methods from mathematics, theoretical systems research, simulations, data science, artificial intelligence, and computer science to provide solutions for a range of disciplines – materials science under ambient and extreme conditions, earth system research, systems biology and medicine, and autonomous vehicles.
CASUS was jointly founded in August 2019 by the Helmholtz-Zentrum Dresden-Rossendorf (HZDR), the Helmholtz Centre for Environmental Research (UFZ), the Max Planck Institute of Molecular Cell Biology and Genetics (MPI-CBG), the Technical University of Dresden (TUD) and the University of Wroclaw (UWr). CASUS is located in the heart of Görlitz at the border between Germany and Poland. The CASUS start-up phase is hosted by the Helmholtz-Zentrum Dresden-Rossendorf and is financed by the Federal Ministry of Education and Research (BMBF) and the Saxon State Ministry for Higher Education, Research and the Arts (SMWK).
The CASUS Department of Systems Biology is looking for a PhD Student (f/m/d) excited about physics-based computational approaches to understanding living systems. Consideration of candidates will begin immediately and will continue until the position is filled. Location of work is Görlitz, remuneration is according to the German Civil Service Tariff and HZDR employment conditions. No tuition charged. The regular weekly working time will be 19,5 hours and will be increased to 30 hours in the third working year. The employment contract is limited to three years.
The Scope of Your Job
CASUS’s Systems Biology Department, in partnership with the Center for Systems Biology Dresden and the Federal Cluster of Excellence “Physics of Life” at TU Dresden, seek to understand living matter on the basis of physical principles. A physical principle that has been particularly successful in describing the behavior of active biological material out of equilibrium is the theory of Active Polar Gels. Traditionally, this theory is used in a top-down way starting from the conservation laws expressed as partial differential equations. While this was successful, it begs the question what the values and molecular meanings of the coefficients in the equations are. In this project, we address this fundamental question in a data-driven way. We exploit recent advances in learning mathematical models from data (https://arxiv.org/abs/1907.07810) in order to use microscopy videos of developing embryos to learn bottom-up physical models. These data-driven models will include the chemical regulation and the biomechanics of the tissue in an attempt to explain the self-organized emergence of shape and function during morphogenesis. Comparing these models with the top-down derived models will provide new insight into the mysterious physics of life.
Develop a machine-learning framework to learn spatiotemporal models from microscopy videos
Investigate the possibility of directly learning on the raw video data, combining computer vision and model inference into one step
Interface with the other CASUS Departments in order to explore the use of Physics-Informed Neural Networks, as they are used in plasma physics, for biological applications
Implement scalable versions of the method as open-source code
Learn data-driven models of tissue development in embryos of zebrafish and fruit fly
Compare the models to the existing physical theories and conclude novel effects from the differences
Publish your results in academic, peer-reviewed journals
Present your results at scientific meetings
Master’s degree in Computational Biology, Applied Mathematics, or Computational Physics
A solid background in biology, in particular developmental biology and cell biology
Excellent Programming skills in Python or C++
Experience in computational statistics, inference, and machine learning
Experience in video and image processing or computer vision
Strong motivation to work in a collaborative and interdisciplinary environment
Excellent communication skills in English and in a professional context (presentation of research results at scientific meetings, colloquial discussions, writing of manuscripts).
- A vibrant research community in an open, diverse, and international work environment
- Scientific excellence and high quality of training according to the Helmholtz Doctoral Guidelines
- Broad national and international science networks
- Cutting-edge, professionally managed high-performance computing resources
- Scientific computing and software engineering support team
- Salary according to the German Collective Wage Agreement for the Civil Service (TVöD)
- Comprehensive benefits package (30 vacation days per year, company pension plan (VBL), flexible working hours, in-house health management, relocation assistance).
Deadline: Rolling application – open until filled.
Please submit your application (including a one-page cover letter, CV, academic degrees, transcripts, etc.) online only on the HZDR application portal.
For any questions, do not hesitate to ask:
Dr. Michael Bussmann Tel.: +49 3581 37523 11, +49 351 260 2616,
Mrs. Weronika Mazur Tel.: +49 3581 37523 23, +49 171 3635554,
Prof. Ivo Fabian Sbalzarini
Place of work: Görlitz
Working hours: 19,5 h/week
English / German
The HZDR is committed to equal opportunity employment and we strongly encourage applications from qualified female candidates. We also carefully consider all applications from job candidates with severe disabilities.
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