Audio Coding - Interactive curriculae of TU Ilmenau

The interactive curriculae provide information on the degree programmes offered by the TU Ilmenau.

Please refer to the respective study and examination rules and regulations for the legally binding curricula (Annex Curriculum).

You can find all details on planned lectures and classes in the course catalogue.

Please note that this page is no longer updated. All modules and study plans from PO version 2021 onwards (Bachelor and Master study programs) are now available on the Campus Portal.

module properties Audio Coding in degree program Master Communications and Signal Processing 2021
module number	200611
examination number	210505
department	Department of Electrical Engineering and Information Technology
ID of group	2184 (Applied Media Systems)
module leader	Prof. Dr. Gerald Schuller
term	winter term only
language	Englisch
credit points	5
on-campus program (h)	34
self-study (h)	116
obligation	elective module
exam	examination performance with multiple performances
details of the certificate	Das Modul Audio Coding mit der Prüfungsnummer 210505 schließt mit folgenden Leistungen ab: alternative semesterbegleitende Prüfungsleistung mit einer Wichtung von 30% (Prüfungsnummer: 2100963) elektronische Abschlussleistung über 90 Minuten mit einer Wichtung von 70% (Prüfungsnummer: 2100964) Details zum Abschluss Teilleistung 1: Waehrend des Semsters bearbeiten die Studenten kleine 2-Woechige Programmierprojekte, die den Stoff der Vorlesung umsetzen. Dies ist eine Fertigkeit die sie nur durch diese entsprechende Uebung erlernen koennen, und die auch nur dadurch geprueft werden kann. During the semester, the students work on small 2-week programming projects. This way they aquire the skill to implement the theoretical approaches from the lecture, and this practice is the only way to aquire and test this skill. Details zum Abschluss Teilleistung 2: Elektronische Abschlussleistung am Ende des Semesters. Diese prueft die theoretischen Kenntnisse, welche die Studenten durch die Vorlesung erlernt haben. Electronic exam at the end of the semester. This tests the knowledge of the theoretical concepts of the lecture.
link to Moodle course
teacher	Prof. Dr.-Ing. Schuller
signup details for alternative examinations	Dieses Modul enthält mindestens eine alternative semesterbegleitende Abschlussleistung. Bitte beachten Sie, dass diese in der Regel schon zu Beginn des Semesters, in dem diese angeboten wird, angemeldet werden muss. Über die Details und Zeiträume dazu werden Sie vom Lehrenden und/oder dem Prüfungsamt informiert. Fragen Sie gegebenenfalls unbedingt beim Lehrenden nach. This module contains at least one alternative exam part. Please note that this must usually be registered at the beginning of the semester in which it is offered. The lecturer and/or the examination office will inform you about the details and time periods. If necessary, be sure to ask the lecturer.
maximum number of participants
previous knowledge and experience	Knowledge in Media Technology, Electrical Engineering, Digital Signal Processing, Advanced Digital Signal Processing
learning outcome	The goal was to understand algorithms for audio compression and being able to program them in Python. The students have learned to describe the methods of audio coding, and can classify them.After attending the course they can summarize these methods. After attending the seminar, they have learned the skills to implement these methods in the programming language Python. At the end they should be able to evaluate theirs and their peers performance. Nachdem Studierende die Veranstaltung besucht haben, können sie die Algorithmen und Prinzipien der Audiocodierung beschreiben und erklären. Die Studierenden sind nach Besuch der Lehrveranstaltung in der Lage, verschiedene Typen der Audiocodierung zu klassifizieren. Nach dem Besuch der Vorlesung können die Studierenden die erworbenen Kenntnisse über die Audiocodierung zusammenfassen.Nach dem Seminar haben die Studierenden ihre in der Vorlesung erworbenen theoretischen Kenntnisse gelernt anzuwenden, durch die Implementierung einzelner Teile aus der Audiocodierung in der Programmiersprache Python.
content	Topics: 1. Overview 2. Psychoacoustics 3. Quantization and Coding 4. Filterbanks 1 5. Filterbanks 2; 6. MPEG-1/2 BC Audio 7. PAC 8. MPEG-2/4 AAC 9. Audio Quality Assessment 10. Parametric Coding 11. Stereo Coding 12. Prediction and Lossless Coding 13. IntMDCT 14. Ultra Low Delay Coder
media of instruction and technical requirements for education and examination in case of online participation	Moodle 2, Lecture slides, script, Python example programs Technischen Voraussetzungen für Moodle-Exam gemäß https://intranet.tu-ilmenau.de/site/vpsl-pand/SitePages/Handreichungen_Arbeitshilfen.aspx Computer, Browser, Internet
literature / references	Alan V. Oppenheim, Ronald W. Schafer, John R. Buck: "Discrete-Time Signal Processing", Prentice Hall, 2nd Edition, 1998 N.S. Jayant, Peter Noll: "Digital Coding of Waveforms", not published anymore P.P. Vaidyanathan: "Multirate Systems and Filter Banks", Prentice Hall, 1993 M.Bosi, R.E. Goldberg: "Introduction to Digital Audio Coding and Standards", Kluwer Academic Publishers, 2002 K.D.Kammeyer,K. Kroschel: "Digitale Signalverarbeitung. Filterung und Spektralanalyse mit MATLAB Übungen", B.G. Teubner Verlag, 2002 John G. Proakis: "Digital Communications", McGraw-Hill Science/Engineering/Math, 4th Edition, 2000 Yiteng(Arden) Huang, Jacob Benesty (Eds.): "Audio Signal Processing ForNext-Generation Multimedia Communication Systems", Kluwer Academic Publishers Group, 2004; especially Chapter 11: "Audio Coding" by G.Schuller A. Spanias, T. Painter, V. Atti: "Audio Signal Processsing and Coding", Wiley-Interscience, New York, 2007 J. Breebaart, C. Faller: "Spatial Audio Processing - MPEG Surround and Other Apllications", Wiley, Chichester, 2007
evaluation of teaching

Audio Coding - Interactive curriculae of TU Ilmenau

Topics:

1. Overview

2. Psychoacoustics

3. Quantization and Coding

4. Filterbanks 1

5. Filterbanks 2;

6. MPEG-1/2 BC Audio

7. PAC

8. MPEG-2/4 AAC

9. Audio Quality Assessment

10. Parametric Coding

11. Stereo Coding

12. Prediction and Lossless Coding

13. IntMDCT

14. Ultra Low Delay Coder

Alan V. Oppenheim, Ronald W. Schafer, John R. Buck: "Discrete-Time Signal Processing", Prentice Hall, 2nd Edition, 1998

N.S. Jayant, Peter Noll: "Digital Coding of Waveforms", not published anymore

P.P. Vaidyanathan: "Multirate Systems and Filter Banks", Prentice Hall, 1993

M.Bosi, R.E. Goldberg: "Introduction to Digital Audio Coding and Standards", Kluwer Academic Publishers, 2002

K.D.Kammeyer,K. Kroschel: "Digitale Signalverarbeitung. Filterung und Spektralanalyse mit MATLAB Übungen", B.G. Teubner Verlag, 2002

John G. Proakis: "Digital Communications", McGraw-Hill Science/Engineering/Math, 4th Edition, 2000

Yiteng(Arden) Huang, Jacob Benesty (Eds.): "Audio Signal Processing ForNext-Generation Multimedia Communication Systems", Kluwer Academic Publishers Group, 2004; especially Chapter 11: "Audio Coding" by G.Schuller

A. Spanias, T. Painter, V. Atti: "Audio Signal Processsing and Coding", Wiley-Interscience, New York, 2007

J. Breebaart, C. Faller: "Spatial Audio Processing - MPEG Surround and Other Apllications", Wiley, Chichester, 2007