Integer- and rational-coefficient M-band wavelet

Integer- and rational-coefficient M-band wavelet

This paper introduces a family of symmetric biorthogonal M-band wavelets with rational and integer coefficients and up to 2 degrees of regularity. Unlike previous approaches, we construct M-band wavelets by adding simple pre/post-filtering modules along the block boundaries of the traditional block...

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Hauptverfasser: Wei Dai, Tran, T.D., Oraintara, S., Nguyen, T.Q.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Discrete cosine transforms
Energy consumption
Filter bank
Matrix decomposition
Polynomials
Signal analysis
Signal processing
Signal resolution
Signal synthesis
Wavelet analysis
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Beschreibung
Zusammenfassung:This paper introduces a family of symmetric biorthogonal M-band wavelets with rational and integer coefficients and up to 2 degrees of regularity. Unlike previous approaches, we construct M-band wavelets by adding simple pre/post-filtering modules along the block boundaries of the traditional block DCT framework. Integer- and rational-coefficient solutions are then obtained from placing further restrictions on each involved component. In other words, we address the design and implementation of fast, efficient pre/post-filters that help improve the polynomial-representing and capturing capability of traditional block transforms such as the DCT. Fast symmetric integer-mapping M-band wavelets can be easily generated by iterating our decomposition scheme on the lowpass subband. Several design examples are presented to demonstrate the validity of the proposed theory.
DOI:10.1109/ISCAS.2002.1010251