Abstract
Color image demosaicking for the Bayer color filter array is an essential image processing operation for acquiring high-quality color images. Recently, residual interpolation (RI)-based algorithms have demonstrated superior demosaicking performance over conventional color difference interpolation-based algorithms. In this paper, we propose adaptive residual interpolation (ARI) that improves existing RI-based algorithms by adaptively combining two RI-based algorithms and selecting a suitable iteration number at each pixel. These are performed based on a unified criterion that evaluates the validity of an RI-based algorithm. Experimental comparisons using standard color image datasets demonstrate that ARI can improve existing RI-based algorithms by more than 0.6 dB in the color peak signal-to-noise ratio and can outperform state-of-the-art algorithms based on training images. We further extend ARI for a multispectral filter array, in which more than three spectral bands are arrayed, and demonstrate that ARI can achieve state-of-the-art performance also for the task of multispectral image demosaicking.
Highlights
A single image sensor with a color filter array (CFA) is widely used in current color digital cameras, in which only one pixel value among RGB values is recorded at each pixel [1]
One can see that adaptive residual interpolation (ARI) can reduce severe color artifacts that appear in the results of existing algorithms other than LSSC. Both the numerical and visual comparisons validate that our proposed ARI can achieve state-of-the-art performance for the color image demosaicking with the Bayer CFA
We proposed a novel algorithm for both color and multispectral image demosaicking
Summary
A single image sensor with a color filter array (CFA) is widely used in current color digital cameras, in which only one pixel value among RGB values is recorded at each pixel [1]. The other two missing pixel values are estimated from the recorded mosaic data of RGB values by an interpolation process called demosaicking (or demosaicing) [2,3,4,5]. Performance of representative algorithms on a standard color image dataset [4]. The CPSNR performance has continuously been improved, suggesting the ongoing demand for more highly accurate demosaicking algorithms
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