Characterization of Digital Silver Halide Printing Devices
The sphere of our interest is a hybrid photographic technology (see Ref.1), which permits to print digital image, obtained by digital camera or scanner, on the silver halide photographic paper. There are many problems in this sphere; tuning and calibration of digital silver halide printing devices cause the main of them.
One of the main problems, which rise on working with digital methods of image processing, is characterization (or calibration) problem of input and output devices. Characterization for RGB data dependent of device, and XYZ values independent of device has been investigated in Ref.2. For the similar studies see Refs. 3-6.
The goal of this paper is to develop the calibration methods for digital silver halide printing devices for further development of techniques for estimating the tone and color reproduction in process printing with digital image processing, taking into account the subjective (psychophysical) side of the process. This should shorten and simplify the process of calculating the quality parameters at each stage of image processing and make it easier to choose the optimum conditions for carrying out process printing, with the final result of improving the quality of photographic images.
Document Type: Research Article
Publication date: January 1, 2002
Started in 2002 and merged with the Color and Imaging Conference (CIC) in 2014, CGIV covered a wide range of topics related to colour and visual information, including color science, computational color, color in computer graphics, color reproduction, volor vision/psychophysics, color image quality, color image processing, and multispectral color science. Drawing papers from researchers, scientists, and engineers worldwide, DGIV offered attendees a unique experience to share with colleagues in industry and academic, and on national and international standards committees. Held every year in Europe, DGIV papers were more academic in their focus and had high student participation rates.
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