Course Manual INF1
Computer Science 1
PDF Course Catalog Deutsche Version: INF1
Version: 1 | Last Change: 27.09.2019 20:30 | Draft: 0 | Status: vom verantwortlichen Dozent freigegeben
| Long name | Computer Science 1 |
|---|---|
| Approving CModule | INF1_BaMT |
| Responsible |
Prof. Dr.-Ing. Arnulph Fuhrmann
Professor Fakultät IME |
| Valid from | winter semester 2020/21 |
| Level | Bachelor |
| Semester in the year | winter semester |
| Duration | Semester |
| Hours in self-study | 90 |
| ECTS | 6 |
| Professors |
Prof. Dr.-Ing. Arnulph Fuhrmann
Professor Fakultät IMEProf. Dr.-Ing. Luigi Lo Iacono ehemaliger Professor Fakultät IME |
| Requirements | none |
| Language | German |
| Separate final exam | Yes |
Literature
| P. Gumm, M. Sommer: Einführung in die Informatik, Oldenbourg, 2010 |
| G. Brookshear: Computer Science: An Overview, Pearson/Addison-Wesley, 2011 |
| W. Küchlin, A. Weber: Einführung in die Informatik - Objektorientiert mit Java, Springer, 2005 |
| C. Ullenboom: Java ist auch eine Insel, Galileo Computing, 2011 |
Final exam
| Details |
Students must demonstrate the following competences in a written examination: - Development of short programmes to solve defined problems described in colloquial language (K.4) - Development of short programs to solve abstractly described problems (K.2, K.5) - Reading, understanding and, if necessary, correction of given program fragments (K.4, K.10) - Evaluation of statements with regard to their correctness (K.12) |
|---|---|
| Minimum standard | At least 50% of the total number of points. |
| Exam Type | EN Klausur |
Learning goals
| Goal type | Description |
|---|---|
| Knowledge | foundations computer architectures Von Neumann model processor memory I/O binary data coding integer characters and strings floating point number media data images audio |
| Knowledge | compiled, interpreted, hybrid languages |
| Knowledge | imperative programming syntax, keywords, comments variables primitive data types operators and expressions arithmetic operators boolean operators bit operators expressions arithmetic boolean precedence of operators elementary data structures arrays characters and strings references control flow statements input / output |
| Knowledge | procedural programming structuring the program code functions recursion moduls and libraries modeling |
| Knowledge | object-oriented programming classes objects methods encapsulation inheritance polymorphism |
| Knowledge | software quality Error handling, debugging testing documentation |
| Skills | design and modeling abstracting problem descriptions into algorithms deciding what programming concepts and primitives are required to solve a particular problem design and modelling of software systems with UML |
| Skills | programming in Java checking source code for programming errors developing programs for solving concrete problems applying fundametal programming concepts reading and understanding third-party source code |
Expenditure classroom teaching
| Type | Attendance (h/Wk.) |
|---|---|
| Lecture | 3 |
| Exercises (whole course) | 0 |
| Exercises (shared course) | 2 |
| Tutorial (voluntary) | 2 |
Special requirements
|
none |
| Accompanying material |
electronic lecture slides for the lecture electronic exercise collection development tools for the development of software programs |
|---|---|
| Separate exam | Yes |
Separate exam
| Exam Type | EN Übungsaufgabe mit fachlich / methodisch eingeschränktem Fokus lösen |
|---|---|
| Details | Independent solving of self-learning tasks on the topics of the lecture in the form of the development of more complex programs to solve problems described in colloquial or abstract language (K.4, K.5, K.9, K.2). |
| Minimum standard | More than 80% of all exercises submitted. A task is deemed to have been completed if it has been solved predominantly and independently. |
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