Title :
High dynamic range image rendering with a retinex-based adaptive filter
Author :
Meylan, Laurence ; Süsstrunk, Sabine
Author_Institution :
Sch. of Comput. & Commun. Sci., Ecole Polytech. Fed. de Lausanne
Abstract :
We propose a new method to render high dynamic range images that models global and local adaptation of the human visual system. Our method is based on the center-surround Retinex model. The novelties of our method is first to use an adaptive filter, whose shape follows the image high-contrast edges, thus reducing halo artifacts common to other methods. Second, only the luminance channel is processed, which is defined by the first component of a principal component analysis. Principal component analysis provides orthogonality between channels and thus reduces the chromatic changes caused by the modification of luminance. We show that our method efficiently renders high dynamic range images and we compare our results with the current state of the art
Keywords :
adaptive filters; image processing; principal component analysis; rendering (computer graphics); Retinex-based adaptive filter; center-surround Retinex model; chromatic changes; halo artifact reduction; high dynamic range image rendering; human visual system; image high-contrast edges; luminance channel; principal component analysis; Adaptive filters; Displays; Dynamic range; Humans; Image coding; Layout; Principal component analysis; Rendering (computer graphics); Shape; Visual system; Color image rendering; high dynamic range; surround-based Retinex; tone mapping;
Journal_Title :
Image Processing, IEEE Transactions on
DOI :
10.1109/TIP.2006.877312
