Title :
Image relaxation: restoration and feature extraction
Author :
Snyder, W. ; Bilbro, Griff ; Whitaker, Ross ; Pizer, Stephen
Author_Institution :
Bowman Gray Sch. of Med., Winston-Salem, NC
fDate :
6/1/1995 12:00:00 AM
Abstract :
The techniques of a posteriori image restoration and iterative image feature extraction are described and compared. Image feature extraction methods known as graduated nonconvexity (GNC); variable conductance diffusion (VCD), anisotropic diffusion, and biased anisotropic diffusion (BAD), which extract edges from noisy images, are compared with a restoration/feature extraction method known as mean field annealing (MFA). All are shown to be performing the same basic operation: image relaxation. This equivalence shows the relationship between energy minimization methods and spatial analysis methods and between their respective parameters of temperature and scale. As a result of the equivalence, VCD is demonstrated to minimize a cost function, and that cost is specified explicitly. Furthermore, operations over scale space are shown to be a method of avoiding local minima
Keywords :
feature extraction; image restoration; iterative methods; minimisation; probability; simulated annealing; smoothing methods; biased anisotropic diffusion; energy minimization methods; graduated nonconvexity; image relaxation; image restoration; iterative image feature extraction; local minima avoidance; mean field annealing; noisy images; spatial analysis methods; variable conductance diffusion; Anisotropic magnetoresistance; Annealing; Biomedical imaging; Cost function; Feature extraction; Image generation; Image restoration; Noise measurement; Pixel; Virtual colonoscopy;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
