Walid Ibrahim, December 2008, "Scale-Space Tracking for
Anisotropic Diffusion", Computer Science Department,
University of Western.
M.Sc. Thesis Abstract
Diffusion filters are designed to smooth homogenous image
regions reducing noise and preserving edges. However, with
the increase in the amount of diffusion applied over time,
the smoothing effect over homogenous regions might not stop
at its boundaries, leading to a blurring effect. This effect
broadens image features' boundaries and dislocates their
edges.
This thesis presents two attempts to correct the boundary
broadening and features distortion drawbacks of diffusion
filtering and hence, reaching a nearly stable diffusion over
time. The work is based on tracking of prominent image
features throughout the diffusion.
The introduced stable diffusion algorithms are evaluated in
terms of features preservation, edge localization and noise
reduction. Two figure of merits, namely Pratt's and Berkley
segmentation benchmark, have been utilized to measure the
accuracy of the diffusion algorithms in terms of edges
localization. The results show that the diffused images and
their extracted edge maps exhibit significant noise reduction
with well localized edges and features preservation. The
introduced algorithms have a better noise reduction
capability compared to traditional de-noising filters.