Tracks

Students must select one of the following application-specific study tracks:

1. Computational Life Sciences (Scholarships are available)

Modeling and simulation defines the future of medicine and biology

virtual cave with man © Ulrik Günther

Biomedical Image Analysis and Visualization

picCLS2 © Prof. Ivo Sbalzarini

Simulations of Biomedical Systems

Tafel mit Stethoskop © MF/TUF" (Medizinische Fakultät)

Biomedical Data Science / Personalized Medicine

"Molekulares Modell der Interaktion zwischen Protein und DNA" © TUD, Florian Kaiser

Bioinformatics and Molecular Modeling

… and many other fields, such as: Computational Psychology, Augmented Reality for Medicine, Virtual Surgery, Drug Discovery...

Scholarships are available
Students in this track are eligible to apply for a scholarship of the DAAD Zuse School of Excellence in AI SECAI to support their studies.

Example study paths for track “Computational Life Science”

2. Computational Mathematics

Modeling and simulation alongside experiments and theory

Foto des Großrechners der TU Dresden © TUD ZIH

Algorithms for High Performance Computing

Particle simulation with active phase field crystal © Prof. Axel Voigt

Particle simulation with active phase field crystal

Simulations in Materials Science

Picture FLUCS © Prof. Axel Voigt

Picuture FLUCS

Simulations in Biology and Biophysics

Designed lamp using bicontinuous structure © Prof. Axel Voigt

Designed lamp using bicontinuous structure

Computational Architecture and Design

3. Visual Computing

Modeling and simulation enables Visual Computing applications that change the world

SXF in movies © Creative Commons CC0

SXF in movies

VR-based Training © ESA/Corvaja

VR-based Training

Autonomous Driving © eschenzweig as CC BY-SA 4.0

Autonomous Driving

Immersive Visual Analytics © Ludwig Schmutzler

Immersive Visual Analytics

Future systems need to combine techniques from computer vision, computer graphics, interaction design, and machine learning.

Example study paths for track “Visual Computing”

4. Computational Engineering

Modeling and simulation is state-of-the-art in modern engineering

© Prof. Beitelschmidt

Computational Fluid Dynamics (CFD)

picCE2 © Prof. Beitelschmidt

Multi-Body Dynamics (MBD)

picCE3 © Prof. Beitelschmidt

Finite Element Method (FEM), Structural

picCE4 © Prof. Beitelschmidt

Finite Element Method (FEM), Electromagnetical

… and many other disciplines

Example study paths for track “Computational Engineering”

5. Computational Modeling in Energy Economics

The combination of modeling skills and energy management is in demand

picture map Germany mean wind speed © TUD Chair of Energy Economics

Data Science in Energy Economics

picture market analyst EE2 © TUD Chair of Energy Economics

Market Analyst in Energy Economics

picture Layer SGAM EE3 © SG-CG

Software implementation for power utilities

picture of map of Europe EE4 © TUD Chair of Energy Economics

Data Science and fundamental modelling in energy management

Example study paths for track “Computational Modeling in Energy Economics”

Example study paths for track “Computational Modeling in Energy Economics”

6. Logic Modelling (Scholarships are available)

Modern applications of artificial intelligence require a combination of learned and designed knowledge models

  •  Intelligent Agents
  •  Knowledge Graphs
  •  Formal System Analysis and Design
  •  Problem Solving and Optimisation

Scholarships are available

Example study paths for track “Logical Modeling”

About this page

Sylvia Wünsch
Last modified: Mar 18, 2024