Back to articles
Articles
Volume: 19 | Article ID: art00075_2
Image
Optimizing Halftone Masks with Genetic Algorithms and Printer Models
J.S. Arney
P. G. Anderson
Sunadi Gunawan
Kenneth Stephens
  DOI :  10.2352/ISSN.2169-4451.2003.19.1.art00075_2  Published OnlineJanuary 2003
Abstract

Techniques are described for determining optimum halftone masks for electrophotographic laser printers. Earlier techniques were based primarily on up-shifting the noise power of the halftone pattern in order to minimize visual granularity. This strategy worked well with low addressable printers up to the mid 1990s. However, current addressability of EP printers is so high that too much up-shifting introduces printer instabilities that can introduce different kinds of granularity and/or mottle. Thus, the optimum halftone mask for image quality should have noise power concentrated within at frequency band between the edge of human vision and the edge of printer stability. The authors have developed search techniques for examining permutations of halftone masks of size HxW. The techniques are based on a strategy called a genetic algorithm (GA).

Journal Title : NIP & Digital Fabrication Conference
Publisher Name : Society of Imaging Science and Technology
Publisher Location : 7003 Kilworth Lane, Springfield, VA 22151, USA
Subject Areas :
Views 10
Downloads 0
 DOI 10.2352/ISSN.2169-4451.2003.19.1.art00075_2
 articleview.views 10
 articleview.downloads 0
  Cite this article 

J.S. Arney, P. G. Anderson, Sunadi Gunawan, Kenneth Stephens, "Optimizing Halftone Masks with Genetic Algorithms and Printer Modelsin Proc. IS&T Int'l Conf. on Digital Printing Technologies (NIP19),  2003,  pp 758 - 762,  https://doi.org/10.2352/ISSN.2169-4451.2003.19.1.art00075_2

 Copy citation
  Copyright statement 
Copyright © Society for Imaging Science and Technology 2003
72010410
NIP & Digital Fabrication Conference
nip digi fabric conf
2169-4451
Society of Imaging Science and Technology
7003 Kilworth Lane, Springfield, VA 22151, USA
2169-4451(20030101)2003:2L.758;1-
nip_v2003n2/splitsection75.xml
/ist/nipdf/2003/00002003/00000002/art00075
Articles
Optimizing Halftone Masks with Genetic Algorithms and Printer Models
ArneyJ.S.
AndersonP. G.
GunawanSunadi
StephensKenneth
01012003
2003
2
758
762
2003
Techniques are described for determining optimum halftone masks for electrophotographic laser printers. Earlier techniques were based primarily on up-shifting the noise power of the halftone pattern in order to minimize visual granularity. This strategy worked well with low addressable printers up to the mid 1990s. However, current addressability of EP printers is so high that too much up-shifting introduces printer instabilities that can introduce different kinds of granularity and/or mottle. Thus, the optimum halftone mask for image quality should have noise power concentrated within at frequency band between the edge of human vision and the edge of printer stability. The authors have developed search techniques for examining permutations of halftone masks of size HxW. The techniques are based on a strategy called a genetic algorithm (GA).