Title :
Entropy-based algorithms for best basis selection
Author :
Coifman, R.R. ; Wickerhauser, M.V.
Author_Institution :
Dept. of Math., Yale Univ., New Haven, CT, USA
fDate :
3/1/1992 12:00:00 AM
Abstract :
Adapted waveform analysis uses a library of orthonormal bases and an efficiency functional to match a basis to a given signal or family of signals. It permits efficient compression of a variety of signals, such as sound and images. The predefined libraries of modulated waveforms include orthogonal wavelet-packets and localized trigonometric functions, and have reasonably well-controlled time-frequency localization properties. The idea is to build out of the library functions an orthonormal basis relative to which the given signal or collection of signals has the lowest information cost. The method relies heavily on the remarkable orthogonality properties of the new libraries: all expansions in a given library conserve energy and are thus comparable. Several cost functionals are useful; one of the most attractive is Shannon entropy, which has a geometric interpretation in this context.<>
Keywords :
data compression; encoding; entropy; signal processing; transforms; Shannon entropy; best basis selection; cost functionals; efficiency functional; entropy-based algorithms; library functions; localized trigonometric functions; modulated waveforms; orthogonal transform coding; orthogonal wavelet-packets; orthonormal basis; signal compression; time-frequency localization properties; waveform analysis; Cost function; Entropy; Image coding; Libraries; Mathematics; Signal analysis; Time frequency analysis; Transform coding; Vector quantization; Wavelet packets;
Journal_Title :
Information Theory, IEEE Transactions on
