From Tensor-Driven Diffusion to Anisotropic Wavelet Shrinkage
Abstract
Diffusion processes driven by anisotropic diffusion tensors are known to be well-suited for structure-preserving denoising. However, numerical implementations based on finite differences introduce unwanted blurring artifacts that deteriorate these favourable filtering properties. In this paper we introduce a novel discretisation of a fairly general class of anisotropic diffusion processes on a 2-D grid. It leads to a locally semi-analytic scheme (LSAS) that is absolutely stable, simple to implement and offers an outstanding sharpness of filtered images. By showing that this scheme can be translated into a 2-D Haar wavelet shrinkage procedure, we establish a connection between tensor-driven diffusion and anisotropic wavelet shrinkage for the first time. This result leads to coupled shrinkage rules that allow to perform highly anisotropic filtering even with the simplest wavelets.
Cite
Text
Welk et al. "From Tensor-Driven Diffusion to Anisotropic Wavelet Shrinkage." European Conference on Computer Vision, 2006. doi:10.1007/11744023_31Markdown
[Welk et al. "From Tensor-Driven Diffusion to Anisotropic Wavelet Shrinkage." European Conference on Computer Vision, 2006.](https://mlanthology.org/eccv/2006/welk2006eccv-tensor/) doi:10.1007/11744023_31BibTeX
@inproceedings{welk2006eccv-tensor,
title = {{From Tensor-Driven Diffusion to Anisotropic Wavelet Shrinkage}},
author = {Welk, Martin and Weickert, Joachim and Steidl, Gabriele},
booktitle = {European Conference on Computer Vision},
year = {2006},
pages = {391-403},
doi = {10.1007/11744023_31},
url = {https://mlanthology.org/eccv/2006/welk2006eccv-tensor/}
}