Yuk‐Hee Chan scite author profile

Abstract-This paper presents an adaptive demosaicing algorithm. Missing green samples are first estimated based on the variances of the color differences along different edge directions. The missing red and blue components are then estimated based on the interpolated green plane. This algorithm can effectively preserve the details in texture regions and, at the same time, it can significantly reduce the color artifacts. As compared with the latest demosaicing algorithms, the proposed algorithm produces the best average demosaicing performance both objectively and subjectively.

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Low-complexity color demosaicing algorithm based on integrated gradients

Chung

Chan

2010

J. Electron. Imaging

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Color demosaicing is critical for digital cameras, because it converts a Bayer sensor mosaic output to a full color image, which determines the output image quality of the camera. In this work, an efficient decision-based demosaicing method is presented. This method exploits a new edge-sensing measure called integrated gradient (IG) to effectively extract gradient information in both color intensity and color difference domains simultaneously. This measure is reliable and supports full resolution, which allows one to interpolate the missing samples along an appropriate direction and hence directly improves the demosaicing performance. By sharing it in different demosaicing stages to guide the interpolation of various color planes, it guarantees the consistency of the interpolation direction in different color channels and saves the effort required to repeatedly extract gradient information from intermediate interpolation results at different stages. An IG-based green plane enhancement is also proposed to further improve the method's efficiency. Simulation results confirm that the proposed demosaicing method outperforms up-to-date demosaicing methods in terms of output quality at a complexity of around 80 arithmetic operations per pixel.

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Feature-preserving multiscale error diffusion for digital halftoning

Chan

Cheung

2004

J. Electron. Imaging

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Abstract. Multiscale error diffusion is superior to conventional error diffusion methods in digital halftoning as it can eliminate directional hysteresis completely. However, there is a bias to favor a particular type of dots in the course of the halftoning process. A new multiscale error diffusion method is proposed to improve the diffusion performance by reducing the aforementioned bias. The proposed method can eliminate the pattern noise in flat regions and the boundary effect found in some other conventional multiscale error diffusion methods. At the same time, it can preserve the local features of the input image in the output. This is critical to quality, especially when the resolution of the output is limited by the physical constraints of the display unit.

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A Framework of Reversible Color-to-Grayscale Conversion With Watermarking Feature

Chan

Lun

2020

IEEE Trans. on Image Process.

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On the realization of discrete cosine transform using the distributed arithmetic

Chan

Siu

1992

IEEE Trans. Circuits Syst. I

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Yuk‐Hee Chan

Color Demosaicing Using Variance of Color Differences

Low-complexity color demosaicing algorithm based on integrated gradients

Feature-preserving multiscale error diffusion for digital halftoning

A Framework of Reversible Color-to-Grayscale Conversion With Watermarking Feature

On the realization of discrete cosine transform using the distributed arithmetic

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