Feature Preserving Image Smoothing Using a Continuous Mixture of Tensors

CRSP:   |  Region:   |  Topic:   |  Database:
Details

Author(s):
Ozlem Subakan; Bing Jian; Baba C. Vemuri; C. Eduardo Vallejos

Type of Document:
Research Report

 

Publisher/Journal:
Not Available

Date of Publication:
2007

Place of Publication:
Not Available

Description

Abstract: Many computer vision and image processing tasks require the preservation of local discontinuities, terminations and bifurcations. Denoising with feature preservation is a challenging task and in this paper, we present a novel technique for preserving complex oriented structures such as junctions and corners present in images. This is achieved in a two stage process namely, (1) All image data are preprocessed to extract local orientation information using a steerable Gabor lter bank. The orientation distribution at each lattice point is then represented by a continuous mixture of Gaussians. The continuous mixture representation can be cast as the Laplace transform of the mixing density over the space of positive de nite (covariance) matrices. This mixing density is assumed to be a parameterized distribution, namely, a mixture of Wisharts whose Laplace transform is evaluated in a closed form expression called the Rigaut type function, a scalar-valued function of the parameters of the Wishart distribution. Computation of the weights in the mixture Wisharts is formulated as a sparse deconvolution problem. (2) The feature preserving denoising is then achieved via iterative convolution of the given image data with the Rigaut type function. We present experimental results on noisy data, real 2D images and 3D MRI data acquired from plant roots depicting bifurcating roots. Superior performance of our technique is depicted via comparison to the state-of-the-art anisotropic diffusion lter.

Additional Bibliographic Information

Coming soon

Send us your questions or comments

Your Name (required)

Your Email (required)

Comment

Please enter this text:
captcha

[current-page]