Regular and irregular Gabor multipliers with application to psychoacoustic masking

Regular and irregular Gabor multipliers with application to psychoacoustic masking / Peter Balazs

ger: In this work the mathematical background for time-frequency masking filter is investigated. The concept of frame multiplier is introduced. The so-called Gabor multipliers are a current topic of research. Frame multipliers are a generalization of this type of operators to frames without further...

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Bibliographic Details
VerfasserIn:
Balazs, Peter
Place / Publishing House:2005
Year of Publication:2005
Language:English
Subjects:
Frame Mathematik (DE-588)4528312-6 Multiplikator (DE-588)4040703-2
Gabor-Verfahren AS0018609 Multiplikator (DE-588)4040703-2 Numerisches Verfahren (DE-588)4128130-5
Psychoakustik (DE-588)4176198-4 Angewandte Mathematik (DE-588)4142443-8
Classification:31.35 - Harmonische Analyse
31.47 - Operatortheorie
31.76 - Numerische Mathematik
31.80 - Angewandte Mathematik
53.71 - Theoretische Nachrichtentechnik
Physical Description:a-j, 303 Bl.; Ill., graph. Darst.
Notes:Begutachter: Feichtinger, Georg ; Torresani, B.
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Summary:ger: In this work the mathematical background for time-frequency masking filter is investigated. The concept of frame multiplier is introduced. The so-called Gabor multipliers are a current topic of research. Frame multipliers are a generalization of this type of operators to frames without further structure. Basic results, like the dependency of the operator on the symbol, are proved.<br />Irregular Gabor frames are investigated. In particular some results on irregular Gabor multipliers are proved like the continuous dependency of Gabor multipliers on the symbol, the lattice and the windows. An algorithm is presented for the approximation of arbitrary matrices by irregular Gabor multipliers and is compared to existing algorithms.<br />For application the finite-dimensional discrete case is important. In this work apart other topics also an idea is investigated how to approximately invert the Gabor frame operator (for regular lattices) in a numerically efficient way by using a double preconditioning scheme.<br />Finally a concept is presented how to implement a filter, which approximates the simultaneous and temporal masking known in psychoacoustics. As the linear frequency scale (in Hz) is not very well adapted to human perception, another is chosen (Bark), so this filtering can be seen as an irregular Gabor multiplier with adaptive symbol.
ac_no:AC04610565
Hierarchical level:Monograph
Statement of Responsibility: Peter Balazs

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