DocumentCode
3312175
Title
Printer optimization for Lenticular screening
Author
Armour, Jessica D. ; Lau, Daniel L.
Author_Institution
Purdue Univ., West Lafayette
fYear
2008
fDate
3-6 April 2008
Firstpage
226
Lastpage
230
Abstract
Digital Halftoning refers to any process used to convert continuous-tone images into an arrangement of black and white pixels, creating the illusion of a continuous-tone image. Lenticular screening is the process of multiplexing multiple images together column-wise into a single image which is then printed onto the flat side of a lenticular lens array such that from a given angle only one of the component images is visible. Lenticular screening presents a unique challenge to digital halftoning as a new generation of halftoning algorithms are needed in order to reduce the errors in lenticular prints caused by both lack of correlation between neighboring pixels and printer distortion. In this paper, we have addressed the issue of printer distortion, attempting to reduce error in lenticular prints by achieving a higher level of control over the printer being used for the print. We took into account the influence of a printed pixel on the resulting gray-level of surrounding pixels, adjusting printer resolution to account for dot overlap from various channels in order to reduce blurring within prints.
Keywords
image colour analysis; printing; black and white pixels; continuous-tone image conversion; digital halftoning; lenticular lens array; lenticular print error reduction; lenticular screening; multiple image column-wise multiplexing; print blurring reduction; printer distortion; printer optimization; Amplitude modulation; Computer displays; Error correction; Frequency modulation; Image converters; Ink; Lenses; Pixel; Printers; Printing; digital halftoning; lenticular screening; printer optimization;
fLanguage
English
Publisher
ieee
Conference_Titel
Southeastcon, 2008. IEEE
Conference_Location
Huntsville, AL
Print_ISBN
978-1-4244-1883-1
Electronic_ISBN
978-1-4244-1884-8
Type
conf
DOI
10.1109/SECON.2008.4494290
Filename
4494290
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