Title :
Multiscale Gradients-Based Color Filter Array Interpolation
Author :
Pekkucuksen, Ibrahim ; Altunbasak, Yucel
Author_Institution :
Dept. of Electr. & Comput. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
Single sensor digital cameras use color filter arrays to capture a subset of the color data at each pixel coordinate. Demosaicing or color filter array (CFA) interpolation is the process of estimating the missing color samples to reconstruct a full color image. In this paper, we propose a demosaicing method that uses multiscale color gradients to adaptively combine color difference estimates from different directions. The proposed solution does not require any thresholds since it does not make any hard decisions, and it is noniterative. Although most suitable for the Bayer CFA pattern, the method can be extended to other mosaic patterns. To demonstrate this, we describe its application to the Lukac CFA pattern. Experimental results show that it outperforms other available demosaicing methods by a clear margin in terms of CPSNR and S-CIELAB measures for both mosaic patterns.
Keywords :
array signal processing; cameras; estimation theory; filtering theory; gradient methods; image colour analysis; image reconstruction; image segmentation; interpolation; Bayer CFA pattern; CFA interpolation; CPSNR; Lukac CFA pattern; S-CIELAB measures; color data; color difference estimates; color filter arrays; color image reconstruction; demosaicing method; missing color sample estimation; mosaic patterns; multiscale color gradients; multiscale gradients-based color filter array interpolation; pixel coordinate; single sensor digital cameras; Arrays; Channel estimation; Color; Correlation; Digital cameras; Image color analysis; Interpolation; Color filter array (CFA) interpolation; demosaicing; directional interpolation; multiscale color gradients;
Journal_Title :
Image Processing, IEEE Transactions on
DOI :
10.1109/TIP.2012.2210726
