Andreas Unterberger

Lehrstuhl für Fluiddynamik - Tromography Group Dipl.-Phys. oec. Andreas Unterberger

Contact Details

 

Carl-Benz Straße 199
47057 Duisburg
Room: NETZ 1.18


Phone: +49-(0)203-379 8120
E-Mail: andreas.unterberger [at] uni-due.de

Research Interests

 

  • Computed tomography
  • Evolutionary strategies
  • Nonlinear optimization
  • Stochastic processes in physics and finance
  • Combustion processes

Scientific Career


Since 10/2017                   
PhD student, Institute for Combustion and Gas Dynamics, Fluid Dynamics, University of Duisburg-Essen, Germany
 
04/2016 – 03/2018         
M.Sc., Computational Mechanics, University of Duisburg-Essen, Germany
Thesis: 3D Evolutionary Reconstruction of Scalar Fields: Phantom Study and Application to a Stratified Flame
 
04/2007 – 09/2012         
Dipl.-Phys. oec., Diplom Wirtschaftsphysik, University of Ulm, Germany
Thesis: Monte-Carlo Simulationen zu einem realistisch modifizierten Arbitragemodell

Professional Career


Since 08/2018
Advisory and programming work for Amadeus Quantamental Sàrl, Louxembourg:
Software engineering, quantitative finance and coding
 
02/2014 – 03/2016        
Portfolio Manager at National Bank AG, Essen:
Investment fund management, asset management and private wealth management
 
02/2013 – 08/2013      
Internship at Oddo BHF AG (former BHF Bank AG), Equity Sales Trading, Frankfurt am Main:
Development and programming of quantitative investment strategies

Publications and Talks

  • A. Unterberger, J. Menser, A. Kempf and K. Mohri, "Evolutionary Camera Pose Estimation of a Multi-Camera Setup for Computed Tomography," 2019 IEEE International Conference on Image Processing (ICIP), Taipei, Taiwan, 2019, pp. 464-468, doi: 10.1109/ICIP.2019.8804398.
  • A. Unterberger, A. Kempf, K. Mohri, 3D Evolutionary Reconstruction of Scalar Fields in the Gas-Phase, Energies 12:11 (2019) 2075. https://doi.org/10.3390/en12112075
  • A. Unterberger, M. Röder, A. Giese, A. Al-Halbouni, A. Kempf, K. Mohri, 3D instantaneous reconstruction of turbulent industrial flames using Computed Tomography of Chemiluminescence (CTC). Journal of Combustion special issue on Coal and Biomass Combustion 2018 (2018), doi: https://doi.org/10.1155/2018/5373829
  • Grauer, S. J., Unterberger, A., Rittler, A., Daun, K. J., Kempf, A. M., Mohri, K., Instantaneous 3D flame imaging by backgrounded-orientated schlieren tomography, Combust. Flame 196 (2018) 284 – 299

Teaching

SoSe2020: Exercise for the lecture Fluid Mechanics (German)
SoSe2019: Tutorial for the lecture Fluid Mechanics
SoSe2018: Exercise for the lecture Fluid Mechanics