Title of article
Fast anisotropic Gauss filtering
Author/Authors
Geusebroek، نويسنده , , J.-M.، نويسنده , , Smeulders، نويسنده , , A.W.M.، نويسنده , , van de Weijer، نويسنده , , J.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
6
From page
938
To page
943
Abstract
We derive the decomposition of the anisotropic
Gaussian in a one-dimensional (1-D) Gauss filter in the -direction
followed by a 1-D filter in a nonorthogonal direction . So
also the anisotropic Gaussian can be decomposed by dimension.
This appears to be extremely efficient from a computing perspective.
An implementation scheme for normal convolution and for
recursive filtering is proposed. Also directed derivative filters are
demonstrated.
For the recursive implementation, filtering an 512 512
image is performed within 40 msec on a current state of the
art PC, gaining over 3 times in performance for a typical filter,
independent of the standard deviations and orientation of the
filter. Accuracy of the filters is still reasonable when compared to
truncation error or recursive approximation error.
The anisotropic Gaussian filtering method allows fast calculation
of edge and ridge maps, with high spatial and angular accuracy. For
tracking applications, the normal anisotropic convolution scheme
is more advantageous, with applications in the detection of dashed
lines in engineering drawings. The recursive implementation is
more attractive in feature detection applications, for instance in
affine invariant edge and ridge detection in computer vision. The
proposed computational filtering method enables the practical
applicability of orientation scale-space analysis.
Keywords
Gauss filter , orientation scale-space , Gaussian derivatives , tracking. , Feature detection , directional filter
Journal title
IEEE TRANSACTIONS ON IMAGE PROCESSING
Serial Year
2003
Journal title
IEEE TRANSACTIONS ON IMAGE PROCESSING
Record number
396886
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