Blue noise digital color halftoning with multiscale error diffusion

Halftoning is a key stage of any printing image processing pipeline. With colorant-channel approaches, a key challenge for matrix-based halftoning is the co-optimization of the matrices used for individual colorants, which becomes increasingly complex and over-constrained as the number of colorants increases. Both choices of screen angles (in clustered-dot cases) or structures, and control over how individual matrices relate to each other and result in over-versus side-by-side printing of the colorants, impose challenging restrictions. The solution presented in this paper relies on the benefits of a halftone area Neugebauer separation pipeline, where local Neugebauer Primary use is specified at each pixel and where halftoning can be performed using a single matrix, regardless of the number of colorants. The provably complete plane dependence of the resulting halftones will be presented among the solution's benefits.

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Blue noise digital color halftoning with multiscale error diffusion

Cited by 4 publications

References 39 publications

Halftone Image Reconstruction Based on SLIC Superpixel Algorithm

Halftone Image Reconstruction Based on SLIC Superpixel Algorithm

Producing color-indexed images with scalable color and spatial resolutions

Direct Pattern Control Halftoning of Neugebauer Primaries

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