Course of Study Computational Science and Engineering (Study Cohort w18)

Sample course plan E  Bachelor Computational Science and Engineering (IIWBS)
Specialisation Engineering Sciences
Legend:
Core qualification CompulsorySpecialisation CompulsoryFocus CompulsoryThesis Compulsory
Core qualification Elective CompulsorySpecialisation Elective CompulsoryFocus Elective CompulsoryInterdisciplinary complement
LP
Semester 1FormHrs/wk
Semester 2FormHrs/wk
Semester 3FormHrs/wk
Semester 4FormHrs/wk
Semester 5FormHrs/wk
Semester 6FormHrs/wk
1
Discrete Algebraic Structures
Discrete Algebraic StructuresVL2
Discrete Algebraic StructuresUE2
Electrical Engineering II: Alternating Current Networks and Basic Devices
Electrical Engineering II: Alternating Current Networks and Basic DevicesVL3
Electrical Engineering II: Alternating Current Networks and Basic DevicesUE2
Engineering Mechanics I
Engineering Mechanics IVL3
Engineering Mechanics IUE2
Engineering Mechanics II
Engineering Mechanics IIVL3
Engineering Mechanics IIUE2
Seminars Computer Science and Mathematics
Seminar Computational Engineering ScienceSE2
Seminar Computer Science/MathematicsSE2
Seminar Computer Science/Engineering MathematicsSE2
Stochastics
StochasticsVL2
StochasticsUE2
2
3
4
5
6
7
Procedural Programming
Procedural ProgrammingVL1
Procedural Programming1
Procedural ProgrammingPR2
Objectoriented Programming, Algorithms and Data Structures
Objectoriented Programming, Algorithms and Data StructuresVL4
Objectoriented Programming, Algorithms and Data StructuresUE1
Numerical Mathematics I
Numerical Mathematics IVL2
Numerical Mathematics IUE2
Signals and Systems
Signals and SystemsVL3
Signals and SystemsUE2
Introduction to Control Systems
Introduction to Control SystemsVL2
Introduction to Control SystemsUE2
Electrical Engineering IV: Transmission Lines and Research Seminar
Transmission Line TheoryVL2
Research Seminar Electrical Engineering, Computer Science, MathematicsSE2
Transmission Line Theory2
8
9
10
11
12
13
Electrical Engineering I: Direct Current Networks and Electromagnetic Fields
Electrical Engineering I: Direct Current Networks and Electromagnetic FieldsVL3
Electrical Engineering I: Direct Current Networks and Electromagnetic FieldsUE2
Automata Theory and Formal Languages
Automata Theory and Formal LanguagesVL2
Automata Theory and Formal LanguagesUE2
Computer Engineering
Computer EngineeringVL3
Computer EngineeringUE1
Embedded Systems
Embedded SystemsVL3
Embedded SystemsUE1
Electrical Engineering III: Circuit Theory and Transients
Circuit TheoryVL3
Circuit TheoryUE2
Materials in Electrical Engineering
Materials in Electrical EngineeringVL2
Materials in Electrical Engineering UE2
Electrotechnical ExperimentsVL1
14
15
16
17
18
19
Mathematics I
Linear Algebra IVL2
Linear Algebra IUE1
Linear Algebra I1
Analysis IVL2
Analysis IUE1
Analysis I1
Foundations of Management
Introduction to ManagementVL3
Management Tutorial2
Computernetworks and Internet Security
Computer Networks and Internet SecurityVL3
Computer Networks and Internet SecurityUE1
Graph Theory and Optimization
Graph Theory and OptimizationVL2
Graph Theory and OptimizationUE2
Electrical Power Systems I: Introduction to Electrical Power Systems
Electrical Power Systems I: Introduction to Electrical Power SystemsVL3
Electrical Power Systems I: Introduction to Electrical Power Systems2
Bachelor Thesis
20
21
22
23
24
25
Mathematics II
Linear Algebra IIVL2
Linear Algebra IIUE1
Linear Algebra II1
Analysis IIVL2
Analysis II1
Analysis IIUE1
Mathematics III
Analysis IIIVL2
Analysis IIIUE1
Analysis III1
Differential Equations 1 VL2
Differential Equations 1 UE1
Differential Equations 1 1
Mathematics IV
Complex FunctionsVL2
Complex FunctionsUE1
Complex Functions1
Differential Equations 2 VL2
Differential Equations 2 UE1
Differential Equations 2 1
26
27
28
29
30
31
32
Nontechnical Complementary Courses for Bachelors (from catalogue) - 6LP

The choice of courses from the catalogue is flexible (depends on the semestral work load), provided the necessary number of required credits is reached.