Title :
Frequency-shift-invariant orthonormal wavelet packet representations
Author :
Krongold, Brian S. ; Ramchandran, Kannan ; Jones, Douglas L.
Author_Institution :
Coordinated Sci. Lab., Illinois Univ., Urbana, IL, USA
fDate :
9/1/1999 12:00:00 AM
Abstract :
It is commonly known that the dyadic structure of wavelet expansions results in both time- and frequency-translation sensitivity of an input signal. We develop the first efficient method to reduce frequency alignment sensitivity by introducing a wavelet packet decomposition that is invariant to frequency shifts of a signal. A frequency-shifted wavelet packet library is presented, and an efficient best-basis algorithm is developed to determine the best signal representation among all frequency shifts of a signal. The algorithm computes all frequency-shifted coefficients in O(N2) operations, followed by an efficient depth-first tree search of the same complexity
Keywords :
computational complexity; signal representation; tree searching; wavelet transforms; binary-tree search algorithm; complexity; depth-first tree search; dyadic structure; efficient best-basis algorithm; frequency alignment sensitivity reduction; frequency-shift-invariant representations; frequency-shifted coefficients; frequency-shifted wavelet packet library; frequency-translation sensitivity; input signal; orthonormal wavelet packet representations; signal representation; time-translation sensitivity; wavelet expansions; wavelet packet decomposition; Cost function; Discrete wavelet transforms; Libraries; Particle measurements; Signal representations; Testing; Tiles; Time frequency analysis; Time measurement; Wavelet packets;
Journal_Title :
Signal Processing, IEEE Transactions on
