Title :
Inverse halftoning via MAP estimation
Author :
Stevenson, Robert L.
Author_Institution :
Dept. of Electr. Eng., Notre Dame Univ., IN, USA
fDate :
4/1/1997 12:00:00 AM
Abstract :
There has been a tremendous amount of research in the area of image halftoning, where the goal has been to find the most visually accurate representation given a limited palette of gray levels (often just two, black and white). This paper focuses on the inverse problem, that of finding efficient techniques for reconstructing high-quality continuous-tone images from their halftoned versions. The proposed algorithms are based on a maximum a posteriori (MAP) estimation criteria using a Markov random field (MRF) model for the prior image distribution. Image estimates obtained with the proposed model accurately reconstruct both the smooth regions of the image and the discontinuities along image edges. Algorithms are developed and example gray-level reconstructions are presented generated from both dithered and error-diffused halftone originals. Application of the technique to the problems of rescreening and the processing of halftone images are shown
Keywords :
Markov processes; edge detection; image reconstruction; image segmentation; inverse problems; maximum likelihood estimation; random processes; MAP estimation; Markov random field model; algorithms; discontinuities; dithered halftone originals; error-diffused halftone originals; gray levels; gray-level reconstructions; halftone image processing; high quality continuous tone images; image distribution; image edges; image estimates; image halftoning; image reconstruction; image representation; inverse halftoning; inverse problem; maximum a posteriori estimation; nonlinear iterative reconstruction technique; rescreening; smooth regions; Gray-scale; Image converters; Image processing; Image recognition; Image reconstruction; Ink; Inverse problems; Markov random fields; Signal analysis; Solids;
Journal_Title :
Image Processing, IEEE Transactions on
