Optimal wavelets for signal decomposition and the existence of scale limited signals

Date
1992-05-20
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Abstract

Wavelet methods give a flexible alternative to Fourier methods in non-stationary signal analysis. The concept of band-limitedness plays a fundamental role in Fourier analysis. Since wavelet theory replaces frequency with scale, a natural question is whether there exists a useful concept of scale-limitedness. Obvious definitions of scale-limitedness are too restrictive, in that there would be few or no useful scale-limited signals. This paper introduces a viable definition for scale-limited signals, and shows that the class is rich enough to include bandlimited signals, and impulse trains, among others. Moreover, for a wide choice of criteria, we show how to design the optimal wavelet for representing a given signal, and how to design robust wavelets that optimally represent certain classes of signals.

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Conference Paper
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Conference paper
Keywords
Fourier analysis, optimal wavelets, signal decomposition, scale limited signals
Citation

J. E. Odegard, R. A. Gopinath and C. S. Burrus, "Optimal wavelets for signal decomposition and the existence of scale limited signals," 1992.

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