Title :
Saddle-node dynamics for edge-preserving and scale-space filtering
Author_Institution :
Div. of Eng., Texas Univ., San Antonio, TX, USA
Abstract :
Demonstrates the use of saddle-node dynamics for edge-preserving and scale-space filtering. The filter is derived from the maximum entropy principle and an analogy with statistical physics. The filter is governed by a single scale parameter which dictates the spatial extent of nearby data used for determining the output. This filter is thus highly adaptive and data-driven. It provides a mechanism for a) removing impulsive noise; b) improved smoothing of nonimpulsive noise and c) preserving edges. Comparisons with conventional techniques are made using real images
Keywords :
adaptive filters; digital filters; edge detection; interference suppression; maximum entropy methods; smoothing methods; adaptive data-driven filter; edge-preserving filtering; images; impulsive noise; maximum entropy principle; nearby data; nonimpulsive noise; output; saddle-node dynamics; scale-space filtering; single scale parameter; smoothing; spatial extent; statistical physics; Adaptive filters; Anisotropic magnetoresistance; Computer vision; Costs; Entropy; Filtering; Physics; Pixel; Robustness; Smoothing methods;
Conference_Titel :
Image Processing, 1994. Proceedings. ICIP-94., IEEE International Conference
Conference_Location :
Austin, TX
Print_ISBN :
0-8186-6952-7
DOI :
10.1109/ICIP.1994.413433
