Algorithms for the analysis and visualization of high dynamic range images based on human perception

High dynamic range images are used to store and transfer an extended range of intensities to render them on a display. To reproduce such images on displays with a lower range, tone mapping algorithms are used. The tone mapping algorithm described in this paper is a modification of the globally optim...

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Veröffentlicht in:	Programming and computer software 2016-11, Vol.42 (6), p.367-374
Hauptverfasser:	Zipa, K. S., Ignatenko, A. V.
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Artificial Intelligence Computer programs Computer Science Distortion Dynamic range Image quality Mapping Mathematical models Operating Systems Parameter modification Software Engineering Software Engineering/Programming and Operating Systems Vision systems
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creator	Zipa, K. S. Ignatenko, A. V.
description	High dynamic range images are used to store and transfer an extended range of intensities to render them on a display. To reproduce such images on displays with a lower range, tone mapping algorithms are used. The tone mapping algorithm described in this paper is a modification of the globally optimized linear windowed tone mapping algorithm. This modification is based on the human vision system model; it makes it possible to improve the results produced by the algorithm and replaces the nonintuitive parameters with a number of intuitively clear ones the variation of which in a high range does not visually distort the image. The high quality of the results produced by the algorithm is confirmed by the high TMQI index and the low value of the DRIM metric.
doi_str_mv	10.1134/S0361768816060086
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subjects	Algorithms Artificial Intelligence Computer programs Computer Science Distortion Dynamic range Image quality Mapping Mathematical models Operating Systems Parameter modification Software Engineering Software Engineering/Programming and Operating Systems Vision systems
title	Algorithms for the analysis and visualization of high dynamic range images based on human perception
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