Showing total 2 results

1. Diffusion-Inspired Shrinkage Functions and Stability Results for Wavelet Denoising.

Author

Mrázek, Pavel, Weickert, Joachim, and Steidl, Gabriele

Subjects

*BURGERS' equation, *HAAR integral, *WAVELETS (Mathematics), *HARMONIC analysis (Mathematics), *INVARIANTS (Mathematics), *MATHEMATICS

Abstract

We study the connections between discrete one-dimensional schemes for nonlinear diffusion and shift-invariant Haar wavelet shrinkage. We show that one step of a (stabilised) explicit discretisation of nonlinear diffusion can be expressed in terms of wavelet shrinkage on a single spatial level. This equivalence allows a fruitful exchange of ideas between the two fields. In this paper we derive new wavelet shrinkage functions from existing diffusivity functions, and identify some previously used shrinkage functions as corresponding to well known diffusivities. We demonstrate experimentally that some of the diffusion-inspired shrinkage functions are among the best for translation-invariant multiscale wavelet denoising. Moreover, by transferring stability notions from diffusion filtering to wavelet shrinkage, we derive conditions on the shrinkage function that ensure that shift invariant single-level Haar wavelet shrinkage is maximum–minimum stable, monotonicity preserving, and variation diminishing. [ABSTRACT FROM AUTHOR]

Published

2005

2. The Monogenic Scale Space on a Rectangular Domain and its Features.

Author

Felsberg, Michael, Duits, Remco, and Florack, Luc

Subjects

*MONOGENIC functions, *ANALYTIC functions, *FOURIER transforms, *MATHEMATICAL transformations, *GEOMETRIC congruences, *HARMONIC analysis (Mathematics), *MATHEMATICS

Abstract

In this paper we present a novel method to implement the monogenic scale space on a rectangular domain. The monogenic scale space is a vector valued scale space based on the Poisson scale space, which establishes a sophisticated alternative to the Gaussian scale space. Previous implementations of the monogenic scale space are Fourier transform based, and therefore suffer from the implicit periodicity in case of finite domains. The features of the monogenic scale space, including local amplitude, local phase, local orientation, local frequency, and phase congruency, are much easier to interpret in terms of image features evolving through scale than in the Gaussian case. Furthermore, applying results from harmonic analysis, relations between the features are obtained which improve the understanding of image analysis. As applications, we present a very simple but still accurate approach to image reconstruction from local amplitude and local phase and a method for extracting the evolution of lines and edges through scale. [ABSTRACT FROM AUTHOR]

Published

2005