Michael Obersteiner, M.Sc.: Difference between revisions
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=== Running Student Projects === | === Running Student Projects === | ||
* A. Liatsetskaya: '''Evaluation of the Spatially adaptive Combination Technique for Uncertainty Quantification''', Bachelor's Thesis, Fakultät für Informatik, Informatics, since January 2020 | * A. Liatsetskaya: '''Evaluation of the Spatially adaptive Combination Technique for Uncertainty Quantification''', Bachelor's Thesis, Fakultät für Informatik, Informatics, since January 2020 | ||
* M. Fabry: '''Evaluating the Spatially Adaptive Combination Technique for Density Estimation''', | * M. Fabry: '''Evaluating the Spatially Adaptive Combination Technique for Density Estimation''', Master's Thesis, Fakultät für Informatik, Informatics, since February 2020 | ||
=== Finished Student Projects === | === Finished Student Projects === | ||
Revision as of 09:53, 18 March 2020
Address:
- TU München
- Institut für Informatik
- Boltzmannstr. 3
- 85748 Garching b. München
- Office:
- MI 02.05.043
- Email:
- Phone:
- (089) 289 18 636
- Fax:
- (089) 289 18 607
- Office Hours:
- by arrangement
Research interests
- Molecular Dynamics
- HPC
- Combination technique
- Sparse Grids Methods
- Machine Learning
Student Projects
Open Hiwi Positions
Developing a testing-framework for the distributed combination technique:
- In this Hiwi position students create and manage an automatic test environment using Jenkins within Gitlab. In addition the existing code will be extended by several unit tests to facilitate the code development. Good C++ knowledge is advised and testing experience would be helpful.
Workload: around 8h/week
Open Student Projects
see: https://www5.in.tum.de/wiki/index.php/Projects_in_Sparse_Grids_and_High_Dimensional_Approximation
You can also come to my office and discuss possible topics.
Running Student Projects
- A. Liatsetskaya: Evaluation of the Spatially adaptive Combination Technique for Uncertainty Quantification, Bachelor's Thesis, Fakultät für Informatik, Informatics, since January 2020
- M. Fabry: Evaluating the Spatially Adaptive Combination Technique for Density Estimation, Master's Thesis, Fakultät für Informatik, Informatics, since February 2020
Finished Student Projects
<pubsccs3 pubid=670479 advisor="Obersteiner" type=dt-thesis sort=-year />
- F. Schwaiger: Simulation eines Dammbruchszenarios
MSE research project, MSE, November 2017
Teaching
- Übungsleitung Algorithms for Scientific Computing SS18, SS19
- Übungsleitung Numerisches Programmieren SoSe 2017, WiSe 2017/18, WiSe 2018/2019, WiSe 2019/2020
- Tutor Diskrete Strukturen, WiSe 2016/2017
Tutor for many years in Numerical Programming
Publications
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Talks
<pubsccs3 pubid=670479 person="Obersteiner" type="dt-konferenzbeitrag|dt-nv-Vortrag" postfilter="type=dt-konferenzbeitrag ~ contribution-type=Vortrag / Präsentation"/>