Noise Covariance Properties in Dual-Tree Wavelet Decompositions
Résumé
Dual-tree wavelet decompositions have recently gained much popularity, mainly due to their ability to provide an accurate directional analysis of images combined with a reduced redundancy. When the decomposition of a random process is performed - which occurs in particular when an additive noise is corrupting the signal to be analyzed - it is useful to characterize the statistical properties of the dual-tree wavelet coefficients of this process. As dual-tree decompositions constitute overcomplete frame expansions, correlation structures are introduced among the coefficients, even when a white noise is analyzed. In this paper, we show that it is possible to provide an accurate description of the covariance properties of the dual-tree coefficients of a wide-sense stationary process. The expressions of the (cross-)covariance sequences of the coefficients are derived in the one and two-dimensional cases. Asymptotic results are also provided, allowing to predict the behaviour of the second-order moments for large lag values or at coarse resolution. In addition, the cross-correlations between the primal and dual wavelets, which play a primary role in our theoretical analysis, are calculated for a number of classical wavelet families. Simulation results are finally provided to validate these results.
Mots clés
Additive noise
Continuous wavelet transforms
Discrete wavelet transforms
Signal analysis
Signal processing
Signal representations
Wavelet analysis
Wavelet transforms
White noise
Covariance
Hilbert transform
cross-correlation
dependence
dual-tree
filter banks
frames
noise
random processes
stationarity
statistics
wavelets
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