Lehrstuhl für Multimediakommunikation und Signalverarbeitung


Description:


The chair belongs to the Department of Electrical, Electronic and Communication Engineering of the Faculty of Engineering. It is headed by Prof. Dr.-Ing. André Kaup, associated is the group of Prof. Dr.-Ing. Walter Kellermann.

Research:

The scientific research at our chair is structured in three major fields of activity:

Video Signal Processing and Transmission: Within the area of video coding and transmission emphasis is on development of signal processing methods for image and video coding at low data rates and for quality improvement in noisy video signals or such which are received with transmission errors.

Audio Communications and Computational Acoustics: The field of audio communications and computational acoustics develops algorithms for recording and reproduction of audio signals and verifies their performance by experiments.

Multidimensional Signals and Systems Theory: Within the area of video coding and transmission emphasis is on development of signal processing methods for image and video coding at low data rates and for quality improvement in noisy video signals or such which are received with transmission errors.

Teaching:

We offer lectures, Project Theses, Research Internships and Theses in a variety of Bachelor and Master programmes of the Faculty of Engineering, e.g. in Electrical, Electronic and Communication Engineering, Information and Communication Technology, Medical and Health Engineering, Industrial Engineering and Management, as well as in the international study programmes Communications and Multimedia Engineering and Computational Engineering.


Address:
Cauerstraße 7/9
91058 Erlangen



Subordinate Organisational Units

Professur für Maschinelles Lernen in der Signalverarbeitung
Professur für Nachrichtentechnik


Research Fields

Audio and Acoustic Signal Processing
Multidimensional Signals and Systems Theory
Video Signal Processing and Transmission


Related Project(s)

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(Moderne Signalverarbeitungsmethoden zum Schutz von DC-Kleinspannungsnetzen der Industrieautomatisierung und der Telekommunikation):
Schutz-DC: Moderne Signalverarbeitungsmethoden zum Schutz von DC-Kleinspannungsnetzen der Industrieautomatisierung und der Telekommunikation
Prof. Dr. Rudolf Rabenstein
(01/03/2018 - 29/02/2020)


3D-Objekterkennung: 3D-Objekterkennung in einer von mehreren Kameras beobachteten Szene
Prof. Dr.-Ing. André Kaup
(01/07/2016 - 30/06/2019)


Development of content adaptive screen sharing coding
Prof. Dr.-Ing. André Kaup
(05/02/2016 - 28/02/2017)


Forschungsinfrastruktur
Prof. Dr.-Ing. André Kaup
(01/01/2016 - 31/12/2018)


Modelling, Design, and Implementation of Molecular Communication Systems
Prof. Dr. Rudolf Rabenstein; Prof. Dr.-Ing. Robert Schober
(01/01/2016 - 30/04/2020)



Publications (Download BibTeX)

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Rabenstein, R., & Czarnach, R. (1985). Stability of recursive time-varying digital filters by state vector transformation. Signal Processing, 8(2), 75-92. https://dx.doi.org/10.1016/0165-1684(85)90090-8
Rabenstein, R. (1984). Filterstrukturen für zeitvariante rekursive Systeme. In H.D. Lüke (Hrg.), Mathematische Methoden in der Signalverarbeitung (pp. 186-189). Aachen, DE.
Rabenstein, R. (1983). Anwendung von Methoden der Signalverarbeitung zur Simulation partieller Differentialgleichungen. In Proceedings of the NTG-Fachbericht "Neue Aspekte der Informations- und Systemtheorie". Berlin: VDE-Verlag.
Czarnach, R., Rabenstein, R., & Schüßler, H.W. (1983). On the Stability of Certain Time-Varying Digital Filters. (pp. 77-80). Erlangen.
Rabenstein, R., & Steffen, P. (1983). Stability of Image Sequence Processing Systems. AEU-Archiv für Elektronik und Uberträgungstechnik, 37(7-8), 261-266.
Rabenstein, R. (1983). Anwendung von Methoden der Signalverarbeitung zur Simulation partieller Differentialgleichungen. NTG - Fachberichte.


Publications in addition (Download BibTeX)


Friedrich, M. (2013). Reduction of Dominant Interference to Patient Speech Communication at Magnetic Resonance Tomography Systems (Dissertation).
Schöndube, H. (2010). Helical Cone-Beam Computed Tomography using the Differentiated Backprojection (Dissertation).
Barkowsky, M. (2009). Subjective and Objective Video Quality Measurement in Low-Bitrate Multimedia Scenarios (Dissertation).
Kunze, H. (2007). Iterative Rekonstruktion in der Medizinischen Bildverarbeitung (Dissertation).
Heuer, J. (2004). Verfahren zur Beschreibung von Bild- und Videomerkmalen und deren Codierung (Dissertation).
Wagner, C. (2003). Informationstheoretische Grenzen optischer 3D-Sensoren (Dissertation).
Rabenstein, R. (1996). Simulation mehrdimensionaler Systeme mit Hilfe von Funktionaltransformationen (Dissertation).
Rabenstein, R. (1991). Diskrete Simulation linearer mehrdimensionaler kontinuierlicher Systeme (Dissertation).

Last updated on 2019-11-09 at 06:50