An Evaluation of the ICM (Iterated Conditional Modes) Algorithm for Image Reconstruction
Abstract
In the last few years considerable interest has been shown in the problems posed by the analysis of images corrupted by random noise. The reconstruction of such images leads to special difficulties as it is an ill- posed problem (in the sense described by O'Sullivan, 1986). Typically the reconstruction of an array of pixels will have as many parameters as observations. A number of techniques have been proposed which solve ill-posed problems by restricting the class of admissible solutions, see Marroquin, Mitter & Poggio (1987). This is achieved by introducing a priori knowledge about admissible solutions. Much interest currently centres on techniques which incorporate knowledge about the underlying image using Bayesian methodology, See Geman & Geman (1984); Kashyap & Lapsa (1984). These techniques assume that the underlying scene can be adequately described as a realisation from a prescribed Markov random field. Motivated by this approach Besag (1986) introduced a technique known as iterated conditional modes (ICM). This iterative procedure incorporates knowledge about the underlying scene by the choice of a 'neighborhood system', weight function and smoothing parameter. Broadly speaking this method exploits the tendency of adjacent pixels to have the same colour. A similar approach based on spatial auto regression is described in Woods, Dravida & Mediavilla (1987). (RH)
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 1987
- Accession Number
- ADA196141
Entities
People
- R. H. Glendinning
Organizations
- University of Bath