Title :
A translation- and scale-invariant adaptive wavelet transform
Author :
Xiong, Huilin ; Zhang, Tianxu ; Moon, Y.S.
Author_Institution :
State Key Lab. for Image Process. & Intelligence Control, Huazhong Univ. of Sci. & Technol., Wuhan, China
fDate :
12/1/2000 12:00:00 AM
Abstract :
This paper presents a new approach to deal with the translation- and scale-invariant problem of the discrete wavelet transform (DWT). Using a signal-dependent filter, whose impulse response is calculated by the first two moments of the original signal and a scale function of an orthonormal wavelet, we adaptively renormalized a signal. The renormalized signal is then decomposed by using the algorithm of the conventional DWT. The final wavelet transform coefficients, called adaptive wavelet invariant moments (AWIM), are proved to be both translation- and scale-invariant. Furthermore, as an application, we define a new textural feature in the framework of our adaptive wavelet decomposition, show its stability to shift and scaling, and demonstrate its efficiency for the task of scale-invariant texture identification.
Keywords :
adaptive signal processing; discrete wavelet transforms; filtering theory; image resolution; image texture; transient response; DWT; adaptive renormalized signal; adaptive wavelet decomposition; adaptive wavelet invariant moments; algorithm; discrete wavelet transform; efficiency; impulse response; multiresolution texture feature; orthonormal wavelet; scale function; scale-invariant adaptive wavelet transform; scale-invariant texture identification; scaling stability; shift stability; signal decomposition; signal moments; signal-dependent filter; translation-invariant adaptive wavelet transform; wavelet transform coefficients; Adaptive filters; Continuous wavelet transforms; Data compression; Discrete wavelet transforms; Entropy; Moon; Pattern recognition; Stability; Wavelet coefficients; Wavelet transforms;
Journal_Title :
Image Processing, IEEE Transactions on
