- Discrete-time signals and systems,
- discrete convolution,
- difference equations,
- Fourier transform,
- z-transform,
- FIR and IIR digital filters,
- sampling of signals,
- discrete Fourier transform (DFT),
- fast Fourier transform (FFT),
- fast convolution.
Module EIT-DSV-531-M-4
Digital Signal Processing (M, 4.0 LP)
Module Identification
Module Number | Module Name | CP (Effort) |
---|---|---|
EIT-DSV-531-M-4 | Digital Signal Processing | 4.0 CP (120 h) |
Basedata
CP, Effort | 4.0 CP = 120 h |
---|---|
Position of the semester | 1 Sem. in WiSe/SuSe |
Level | [4] Bachelor (Specialization) |
Language | [DE/EN] German or English as required |
Module Manager | |
Lecturers | |
Area of study | [EIT-DSV] Digital Signal Processing |
Reference course of study | [EIT-82.781-SG#2019] B.Sc. Electrical and Computer Engineering [2019] |
Livecycle-State | [NORM] Active |
Courses
Type/SWS | Course Number | Title | Choice in Module-Part | Presence-Time / Self-Study | SL | SL is required for exa. | PL | CP | Sem. | |
---|---|---|---|---|---|---|---|---|---|---|
3V | EIT-DSV-531-K-4 | Digital Signal Processing
| WP | 42 h | 78 h | - | - | PL1 | 4.0 | WiSe |
3V | EIT-DEK-536-K-4 | Digital Signal Processing
| WP | 42 h | 78 h | - | - | PL1 | 4.0 | SuSe |
- About [EIT-DSV-531-K-4]: Title: "Digital Signal Processing"; Presence-Time: 42 h; Self-Study: 78 h
- About [EIT-DEK-536-K-4]: Title: "Digital Signal Processing"; Presence-Time: 42 h; Self-Study: 78 h
Examination achievement PL1
- Form of examination: written exam (Klausur) (90 Min.)
- Examination Frequency: each semester
Evaluation of grades
The grade of the module examination is also the module grade.
Contents
- Discrete-time signals and systems,
- discrete convolution,
- difference equations,
- Fourier transform,
- z-transform,
- FIR and IIR digital filters,
- sampling of signals,
- discrete Fourier transform (DFT),
- fast Fourier transform (FFT),
- fast convolution.
Competencies / intended learning achievements
- Beherrschen der Systemtheorie linearer zeitdiskreter Systeme
- Beherrschen der Berechnungsverfahren linearer zeitdiskreter Systeme im Zeit- und Frequenzbereich
- Verstehen wichtiger Systemstrukturen
- Grundlegende Kenntnisse des Systementwurfs und der DFT-Anwendungen
Requirements for attendance (informal)
None
Requirements for attendance (formal)
None