Contrast-aware Halftoning

This paper proposes two variants of a simple but efficient algorithm for structure‐preserving halftoning. Our algorithm extends Floyd‐Steinberg error diffusion; the goal of our extension is not only to produce good tone similarity but also to preserve structure and especially contrast, motivated by...

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Published in	Computer graphics forum Vol. 29; no. 2; pp. 273 - 280
Main Authors	Li, Hua, Mould, David
Format	Journal Article
Language	English
Published	Oxford, UK Blackwell Publishing Ltd 01.05.2010
Subjects	Algorithms C (programming language) Computer graphics Diffusion Error detection Human I.3.3 [Computer Graphics]: Picture/Image Generation-Digitizing and scanning Image processing systems Perception Preserves Similarity
Online Access	Get full text
ISSN	0167-7055 1467-8659
DOI	10.1111/j.1467-8659.2009.01596.x

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Abstract	This paper proposes two variants of a simple but efficient algorithm for structure‐preserving halftoning. Our algorithm extends Floyd‐Steinberg error diffusion; the goal of our extension is not only to produce good tone similarity but also to preserve structure and especially contrast, motivated by our intuition that human perception is sensitive to contrast. By enhancing contrast we attempt to preserve and enhance structure also. Our basic algorithm employs an adaptive, contrast‐aware mask. To enhance contrast, darker pixels should be more likely to be chosen as black pixels while lighter pixels should be more likely to be set as white. Therefore, when the positive error is diffused to nearby pixels in a mask, the dark pixels absorb less error and the light pixels absorb more. Conversely, negative error is distributed preferentially to dark pixels. We also propose using a mask with values that drop off steeply from the centre, intended to promote good spatial distribution. It is a very fast method whose speed mainly depends on the size of the mask. But this method suffers from distracting patterns. We then propose a variant on the basic idea which overcomes the first algorithm's shortcomings while maintaining its advantages through a priority‐aware scheme. Rather than proceeding in random or raster order, we sort the image first; each pixel is assigned a priority based on its up‐to‐date distance to black or to white, and pixels with extreme intensities are processed earlier. Since we use the same mask strategy as before, we promote good spatial distribution and high contrast. We use tone similarity, structure similarity, and contrast similarity to validate our algorithm. Comparisons with recent structure‐aware algorithms show that our method gives better results without sacrificing speed.
AbstractList	This paper proposes two variants of a simple but efficient algorithm for structure-preserving halftoning. Our algorithm extends Floyd-Steinberg error diffusion; the goal of our extension is not only to produce good tone similarity but also to preserve structure and especially contrast, motivated by our intuition that human perception is sensitive to contrast. By enhancing contrast we attempt to preserve and enhance structure also. This paper proposes two variants of a simple but efficient algorithm for structure‐preserving halftoning. Our algorithm extends Floyd‐Steinberg error diffusion; the goal of our extension is not only to produce good tone similarity but also to preserve structure and especially contrast, motivated by our intuition that human perception is sensitive to contrast. By enhancing contrast we attempt to preserve and enhance structure also. Our basic algorithm employs an adaptive, contrast‐aware mask. To enhance contrast, darker pixels should be more likely to be chosen as black pixels while lighter pixels should be more likely to be set as white. Therefore, when the positive error is diffused to nearby pixels in a mask, the dark pixels absorb less error and the light pixels absorb more. Conversely, negative error is distributed preferentially to dark pixels. We also propose using a mask with values that drop off steeply from the centre, intended to promote good spatial distribution. It is a very fast method whose speed mainly depends on the size of the mask. But this method suffers from distracting patterns. We then propose a variant on the basic idea which overcomes the first algorithm's shortcomings while maintaining its advantages through a priority‐aware scheme. Rather than proceeding in random or raster order, we sort the image first; each pixel is assigned a priority based on its up‐to‐date distance to black or to white, and pixels with extreme intensities are processed earlier. Since we use the same mask strategy as before, we promote good spatial distribution and high contrast. We use tone similarity, structure similarity, and contrast similarity to validate our algorithm. Comparisons with recent structure‐aware algorithms show that our method gives better results without sacrificing speed. This paper proposes two variants of a simple but efficient algorithm for structure-preserving halftoning. Our algorithm extends Floyd-Steinberg error diffusion; the goal of our extension is not only to produce good tone similarity but also to preserve structure and especially contrast, motivated by our intuition that human perception is sensitive to contrast. By enhancing contrast we attempt to preserve and enhance structure also. Our basic algorithm employs an adaptive, contrast-aware mask. To enhance contrast, darker pixels should be more likely to be chosen as black pixels while lighter pixels should be more likely to be set as white. Therefore, when the positive error is diffused to nearby pixels in a mask, the dark pixels absorb less error and the light pixels absorb more. Conversely, negative error is distributed preferentially to dark pixels. We also propose using a mask with values that drop off steeply from the centre, intended to promote good spatial distribution. It is a very fast method whose speed mainly depends on the size of the mask. But this method suffers from distracting patterns. We then propose a variant on the basic idea which overcomes the first algorithm's shortcomings while maintaining its advantages through a priority-aware scheme. Rather than proceeding in random or raster order, we sort the image first; each pixel is assigned a priority based on its up-to-date distance to black or to white, and pixels with extreme intensities are processed earlier. Since we use the same mask strategy as before, we promote good spatial distribution and high contrast. We use tone similarity, structure similarity, and contrast similarity to validate our algorithm. Comparisons with recent structure-aware algorithms show that our method gives better results without sacrificing speed. [PUBLICATION ABSTRACT]
Author	Li, Hua Mould, David
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References_xml	– reference: Chang J., Alain B., Ostromoukhov V.: Structure-aware error diffusion. ACM Transactions on Graphics 28, 4 (Dec. 2009). Proceedings of SIGGRAPH-ASIA 2009. – reference: Hendee W. R., Wells P. N.: The Perception of Visual Information (Hardcover). Springer; 2 edition, 1997. – reference: Kopf J., Cohen-Or D., Deussen O., Lischinski D.: Recursive wang tiles for real-time blue noise. ACM Transactions on Graphics (SIGGRAPH 2006 issue) 25, 3 (2006), 509-518. – reference: Pang W.-M., Qu Y., Wong T.-T., Cohen-Or D., Heng P.-A.: Structure-aware halftoning. ACM Transactions on Graphics (SIGGRAPH 2008 issue) 27, 3 (2008), 89:1-89:8 – reference: Marcu G., Abe S.: Halftoning by back error compensation, in Proceedings, NIP 12: International Conference on Digital Printing Technologies (1996), 12 : 132-135. – reference: Regan D.: Human Perception of Objects: Early Visual Processing of Spatial Form Defined by Luminance, Color, Texture, Motion, and Binocular Disparity, Sinauer Associates; 1st edition, March 2000. – reference: Wang Z., Bovik A. C., Sheikh H. R., Simoncelli E. P.: Image quality assessment: from error visibility to structural similarity. Image Processing, IEEE Transactions on 13, 4 (2004), 600-612. – reference: Li X.: Edge-directed error diffusion halftoning. IEEE Signal Processing Letters 13, 11 (November 2006), 688-690. – reference: Eschbach R., Knox K. T.: Error-diffusion algorithm with edge enhancement. 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SubjectTerms	Algorithms C (programming language) Computer graphics Diffusion Error detection Human I.3.3 [Computer Graphics]: Picture/Image Generation-Digitizing and scanning Image processing systems Perception Preserves Similarity
Title	Contrast-aware Halftoning
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