A modified multiscale error diffusion technique for digital halftoning. Chan, Y. Signal Processing Letters, IEEE, 5(11):277 -280, 11, 1998. doi abstract bibtex A digital halftoning method is proposed based on a multiscale error diffusion technique for digital halftoning. It can improve the diffusion performance by effectively removing pattern noise and eliminating boundary and "blackhole" effects. A dot overlap compensation scheme is also proposed to eliminate the bias in the gray scale of the printed images.
@article{728466,
Author = {Yuk-Hee Chan},
Date-Added = {2012-08-20 14:16:21 +0000},
Date-Modified = {2012-08-20 17:37:22 +0000},
Doi = {10.1109/97.728466},
Issn = {1070-9908},
Journal = {Signal Processing Letters, IEEE},
Keywords = {blackhole effects elimination;diffusion performance;digital halftoning;dot overlap compensation;gray scale;gray scale bias compensation;iterative algorithm;modified multiscale error diffusion technique;pattern noise removal;printed images;quantization error;error compensation;image processing;iterative methods;noise;quantisation (signal);},
Month = {11},
Number = {11},
Pages = {277 -280},
Title = {A modified multiscale error diffusion technique for digital halftoning},
Volume = {5},
Year = {1998},
Abstract = {A digital halftoning method is proposed based on a multiscale error diffusion technique for digital halftoning. It can improve the diffusion performance by effectively removing pattern noise and eliminating boundary and "blackhole" effects. A dot overlap compensation scheme is also proposed to eliminate the bias in the gray scale of the printed images.},
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