Standard Study Plan Master

Standard Study Plans Master

Computational Optics
Standard study plan for master students
7 8 9 10
Computer Science – min. 20 ECTS ECTS total
Architectures of Supercomputers / Heterogene Rechnerarchitekturen Online W  5
Advanced Programming Techniques W 7,5
High End Simulation in Practice S  5
Programming Techniques for Supercomputers W  7,5  
Computer Science Project Module W  10 35
Mathematics – min. 20 ECTS
Optimierung für Ingenieure mit Praktikum P  7,5
Functional Analysis for Engineers P 5
Elementary Numerical Mathematics / Numerical Linear Algebra W 7,5 20
TAF – min. 20 ECTS
Laser Tissue Interaction W  5
Photonik II W  5
Optische Übertragungstechnik W 5
Advanced Optical Communication Systems W  5
Komponenten optischer Kommunikationssysteme W  5
Grundkurs Optik IV / Basic Course in optics V:Nonlinear optics W 5 30
Seminar, Referat und Masterarbeit – 30 + 5 ECTS  5 30 35
total 30 30 30 30 120

Information Technology – Digital Transmission
Standard study plan for master students
7 8 9 10
Computer Science – min. 20 ECTS ECTS total
Architectures of Supercomputers / Heterogene Rechnerarchitekturen Online W 5
Advanced Programming Techniques W 7,5
High End Simulation in Practice S 5
Programming Techniques for Supercomputers W 7,5
Computer Science Project Module W 10 35
Mathematics – min. 20 ECTS
Optimierung für Ingenieure mit Praktikum P 7,5
Functional Analysis for Engineers P 5
Elementary Numerical Mathematics / Numerical Linear Algebra W 7,5 20
TAF – min. 20 ECTS
Channel Coding W 5
MIMO Communication Systems W  5
Machine Learning in Communications W 5
Convex Optimization in Communications and Signal Processing W 5
Information Theory and Coding W 5
Digital Communications P 5 30
Seminar, Referat und Masterarbeit – 30 + 5 ECTS  5 30 35
total 30 30 30 30 120

Information Technology – Digital Signal Processing
Standard study plan for master students
7 8 9 10
Computer Science – min. 20 ECTS ECTS total
Architectures of Supercomputers / Heterogene Rechnerarchitekturen Online W 5
Advanced Programming Techniques W 7,5
High End Simulation in Practice S 5
Programming Techniques for Supercomputers W 7,5
Computer Science Project Module W 10 35
Mathematics – min. 20 ECTS
Optimierung für Ingenieure mit Praktikum P 7,5
Functional Analysis for Engineers P 5
Elementary Numerical Mathematics / Numerical Linear Algebra W 7,5 20
TAF – min. 20 ECTS
Multimediakommunikation I – Image and Video Compression W 5
Speech and Audio Signal Processing W 5
Convex Optimization in Communications and Signal Processing W 5
Machine Learning in Signal Processing W 5
Statistical Signal Processing W 5
Digital Signal Processing P 5
Seminar, Referat und Masterarbeit – 30 + 5 ECTS  5 30 35
total 30 30 20 30 120

Mechatronics
Standard study plan for master students
7 8 9 10
Computer Science – min. 20 ECTS ECTS total
Architectures of Supercomputers / Heterogene Rechnerarchitekturen Online W 5
Advanced Programming Techniques W 7,5
High End Simulation in Practice S 5
Programming Techniques for Supercomputers W 7,5
Computer Science Project Module W 10 35
Mathematics – min. 20 ECTS
Optimierung für Ingenieure mit Praktikum P 7,5
Functional Analysis for Engineers P 5
Elementary Numerical Mathematics / Numerical Linear Algebra W 7,5 20
TAF – min. 20 ECTS
Mechatronic Components and Systems W 5
Robot Mechanisms and User Interfaces W 5
Human-Centered Mechatronics and Robotics W 5
Autonome Systeme: Von der Forschung zum Produkt W 2,5
W
Seminar, Referat und Masterarbeit – 30 + 5 ECTS  5 30 35
total 32,5 27,5 32,5 30 122,5

1

Thermo and Fluid Dynamics
Standard study plan for master students
7 8 9 10
Computer Science – min. 20 ECTS ECTS total
Architectures of Supercomputers / Heterogene Rechnerarchitekturen Online W 5
Advanced Programming Techniques W 7,5
High End Simulation in Practice S 5
Programming Techniques for Supercomputers W 7,5
Computer Science Project Module W 10 35
Mathematics – min. 20 ECTS
Optimierung für Ingenieure mit Praktikum P 7,5
Functional Analysis for Engineers P 5
Elementary Numerical Mathematics / Numerical Linear Algebra W 7,5 20
TAF – min. 20 ECTS
Numerische Methoden der Thermofluidmechanik I W 7,5
Numerische Methoden der Thermofluidmechanik II W 7,5
Physik der Turbulenz und Turbulenzmodellierung I W 5
Physik der Turbulenz und Turbulenzmodellierung II W  5
Angewandte Thermofluiddynamik W 5 30
Seminar, Referat und Masterarbeit – 30 + 5 ECTS  5 30 35
total 32,5 27,5 30 30 120

Solid Mechanics & Dynamics
Standard study plan for master students
7 8 9 10
Computer Science – min. 20 ECTS ECTS total
Architectures of Supercomputers / Heterogene Rechnerarchitekturen Online W 5
Advanced Programming Techniques W 7,5
High End Simulation in Practice S 5
Programming Techniques for Supercomputers W 7,5
Computer Science Project Module W 10 35
Mathematics – min. 20 ECTS
Optimierung für Ingenieure mit Praktikum P 7,5
Functional Analysis for Engineers P 5
Elementary Numerical Mathematics / Numerical Linear Algebra W 7,5 20
TAF – min. 20 ECTS
Numerische Methoden in der Mechanik W 5
Computational Dynamics W  5
Materials Modeling and Simulation W 5
Lineare Kontinuumsmechanik W 5
Nichtlineare Kontinuumsmechanik W 5
Nichtlineare Finite Elemente W 5 30
Seminar, Referat und Masterarbeit – 30 + 5 ECTS  5 30 35
total 30 30 30 30 120

Computational Material Science
Standard study plan for master students
7 8 9 10
Computer Science – min. 20 ECTS ECTS total
Architectures of Supercomputers / Heterogene Rechnerarchitekturen Online W 5
Advanced Programming Techniques W 7,5
High End Simulation in Practice S 5
Programming Techniques for Supercomputers W 7,5
Computer Science Project Module W 10 35
Mathematics – min. 20 ECTS
Optimierung für Ingenieure mit Praktikum P 7,5
Functional Analysis for Engineers P 5
Elementary Numerical Mathematics / Numerical Linear Algebra W 7,5 20
TAF – min. 20 ECTS
Introduction to Advanced Maths and Calculus W 1,5
Foundations of Finite Element Simulation W 3
Materials and Structure W 3
Material Properties I W 3
Multi-scale Simulation Methods I W 3
Multi-scale Simulation Methods II W 3
Numerische Methoden in den Werkstoffwissenschaften – Atomistische Methoden W 3
Generalized Continuum Models of Materials with Microstructures W 1,5
Dislocation Theory and Dislocation Simulation W 3
Computer Lab W 6 30
Seminar, Referat und Masterarbeit – 30 + 5 ECTS 35 35
total 41 22,5 21,5 30 120

Medical Engineering
Standard study plan for master students
7 8 9 10
Computer Science – min. 20 ECTS ECTS total
Architectures of Supercomputers / Heterogene Rechnerarchitekturen Online W 5
Advanced Programming Techniques W 7,5
High End Simulation in Practice S 5
Programming Techniques for Supercomputers W 7,5
Diagnostic Medical Image Processing W  5
Interventional Medical Image Processing W 5
Computer Science Project Module W 10 45
Mathematics – min. 20 ECTS
Optimierung für Ingenieure mit Praktikum P 7,5
Functional Analysis for Engineers P 5
Elementary Numerical Mathematics / Numerical Linear Algebra W 7,5 20
TAF – min. 20 ECTS
Optical Technologies in Life Science W 5
Clinical Applications of Optical Technologies and Associated Fundamentals of Anatomy W 5
Laser Tissue Interaction W  5 5
Digitale Signalverarbeitung W 5 20
Seminar, Referat und Masterarbeit – 30 + 5 ECTS  5 30 35
total 30 30 30 30 120

Automatic Control
Standard study plan for master students
7 8 9 10
Computer Science – min. 20 ECTS ECTS total
Pattern Recognition / Pattern Analysis W 5
Advanced Programming Techniques W 7,5
Architectures of Supercomputers W 5
Automotive Systems & Software Engineering W 5
Computer Science Project Module W 10 32,5
Mathematics – min. 20 ECTS
Optimierung für Ingenieure mit Praktikum P 7,5
Functional Analysis for Engineers P 5
Algorithms of Numerical Linear Algebra W 7,5 20
TAF – min. 20 ECTS
Maschinelles Lernen in der Regelungstechnik W 5
Mechatronic Components and Systems W 5
Nonlinear Control Systems W 5
Numerical Optimization and Model Predictive Control W 5
Robotics 1 W 5
Robotics 2 W 5
Praktikum Regelungstechnik II / Projekt Mobile Robotik W 2,5 32,5
Seminar, Referat und Masterarbeit – 30 + 5 ECTS  5 30 35
total 30 32,5 27,5 30 120