Es ist eine neuere Version 2015W dieser LV im Curriculum Master's programme Mechatronics 2021W vorhanden.
(*) Unfortunately this information is not available in english.
Workload
Education level
Study areas
Responsible person
Hours per week
Coordinating university
3 ECTS
M2 - Master's programme 2. year
Mechatronics
Hans-Peter Bernhard
2 hpw
Johannes Kepler University Linz
Detailed information
Original study plan
Master's programme Mechatronics 2012W
Objectives
students should get: - introduction to signal processing - understanding of time discrete methods for stochastic and deterministic signals - introduction to digital filter theory (FIR, IIR) - overview of basic filter design methods - introduction to multirate signal processing - concepts of delta-sigma convolution - digital signal processors - processor architectures - algorithms and methods - programming
Subject
- Basic Concepts of Sampling * Sampling Theorem * Oversampling * Bandpass Sampling Theorem - Methods of Digital Signal Processing * FFT * Convolution * Cyclic Convolution * Block Processing - Filter Theory * FIR * IIR - Filter Design * Window Method * Kaiser Method * Optimal Filter Design * Impulsinvarianz * Bilinear Transformation - Multirate Signal Processing * Interpolator * Dezimator * Oversampling - Sigma-Delta-Convolution * Principe * Noise Shaping * Methods - Digital Signalprozessors * Basics * Architectures * Bus Types - Effects and Properties * Word Length * Error Propagation * Number Representation - DSP-Algorithms * Design Methods * Precedence Graph * Resource Allocation * Programming of DSP in C
Criteria for evaluation
Oral examination
Language
German or English
Study material
Lecture notes
Presentation
Leland B. Jackson, Digital Filters and Signal Processing: With MATLAB Exercises
Alan V. Oppenheim und Ronald W. Schafer, Zeitdiskrete Signalverarbeitung
Gerhard Doblinger, Signalprozessoren: Architekturen - Algorithmen - Anwendungen, Verlag: Schlembach
Changing subject?
No
Corresponding lecture
(*)ME3WOVODBVA: VO Digitale Bildverarbeitung für Mechatroniker (3 ECTS)
