Your search keyword '"Wavelet shrinkage"' showing total 4 results

1. Noise reduction of shot-noise-dominated hyperspectral imagery by combining PCA with existing denoising methods

Author

Adam Krzyżak and Guangyi Chen

Subjects

Computer science, business.industry, Applied Mathematics, Noise reduction, Wavelet shrinkage, Shot noise, Hyperspectral imaging, Pattern recognition, symbols.namesake, Gaussian noise, Computer Science::Computer Vision and Pattern Recognition, Signal Processing, Principal component analysis, symbols, Artificial intelligence, business, Information Systems

Abstract

In this paper, we revisit the effects of principal component analysis (PCA) on hyperspectral imagery denoising. Our previous work combined PCA with wavelet shrinkage and particularly good denoising results has been achieved. We debate that any denoising methods can be used to replace wavelet shrinkage in our PCA+wavelet shrinkage algorithm. The major difference between this work and our previous PCA-based denoising method is that we consider a mixture of Gaussian and shot noise in this work whereas our previous methods studied Gaussian white noise alone. In addition, we retain [Formula: see text] [Formula: see text] PCA output components in our forward PCA transform in this paper whereas we keep all PCA output components [Formula: see text] in our previous works. The [Formula: see text] above is the number of spectral bands in the original hyperspectral imagery data cube. In addition, PCA is much better than nonlinear PCA for hyperspectral imagery denoising when Gaussian white noise and shot noise are introduced as demonstrated in this paper. Extensive experiments demonstrate that the method proposed in this paper outperforms the existing methods significantly in terms of signal-to-noise ratio for two testing hyperspectral imagery data cubes.

Published

2021

2. Wavelet shrinkage generalized Bayes estimation for elliptical distribution parameter’s under LINEX loss

Author

Hamid Karamikabir and Mahmoud Afshari

Subjects

Error loss, Bayes estimator, Applied Mathematics, Wavelet shrinkage, 02 engineering and technology, Function (mathematics), 01 natural sciences, Statistics::Computation, 010104 statistics & probability, Bayes' theorem, Signal Processing, 0202 electrical engineering, electronic engineering, information engineering, Statistics::Methodology, Applied mathematics, 020201 artificial intelligence & image processing, 0101 mathematics, Elliptical distribution, Information Systems, Shrinkage, Mathematics

Abstract

In this paper, the generalized Bayes estimator of elliptical distribution parameter’s under asymmetric Linex error loss function is considered. The new shrinkage generalized Bayes estimator by applying wavelet transformation is investigated. We develop admissibility and minimaxity of shrinkage estimator on multivariate normal distribution.We present the simulation in order to test validity of purpose estimator.

Published

2019

3. ITERATIVE REGULARIZATION AND NONLINEAR INVERSE SCALE SPACE BASED ON TRANSLATION INVARIANT WAVELET SHRINKAGE

Author

Min Li, Xiangchu Feng, and Bin-bin Hao

Subjects

Nonlinear system, Applied Mathematics, Noise reduction, Wavelet shrinkage, Signal Processing, Mathematical analysis, Wavelet transform, Inverse, Invariant (mathematics), Regularization (mathematics), Information Systems, Mathematics, Scale space

Abstract

In this paper, we present a new class of iterative regularization methods in the setting of Besov spaces, which can be seen as generalizations of J. Xu's method. By incorporating translation invariant wavelet transform, minimizers of the new methods can be understood as the alternative to translation invariant wavelet shrinkage with weight that is dependent on the wavelet decomposition scale and the Besov smooth order. And we generalize the iterative regularization methods to a new class of nonlinear inverse scale spaces with scale and Besov smooth order dependent weight. The numerical results show an excellent denoising effect and improvement over J. Xu's method.

Published

2008

4. A MULTISCALE TIGHT FRAME-INSPIRED SCHEME FOR NONLINEAR DIFFUSION

Author

Xiao Kong and Haihui Wang

Subjects

Discontinuity (linguistics), Discretization, Tight frame, Applied Mathematics, Scheme (mathematics), Noise reduction, Wavelet shrinkage, Signal Processing, Mathematical analysis, Nonlinear diffusion, Information Systems, Shrinkage, Mathematics

Abstract

Nonlinear diffusion and wavelet shrinkage are two successfully applied methods for discontinuity preserving denoising of signals and images. Recently, relations between both methods have been established taking into account wavelet shrinkage at one or multiscale. In this paper we show that one step of (stabilized) explicit discretization of nonlinear diffusion can be expressed in terms of tight frame shrinkage on a single spatial level or multiscale. We prove that our scheme permits larger steps while having more choices of shrinkage functions. Numerical examples demonstrate the behavior of our scheme for one or two scales.

Published

2012