High Dynamic Range Image and Video Compression - Fidelity Matching Human Visual Performance

Vast majority of digital images and video material stored today can capture only a fraction of visual information visible to the human eye and does not offer sufficient quality to fully exploit capabilities of new display devices. High dynamic range (HDR) image and video formats encode the full visi...

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Main Authors: Mantiuk, R., Krawczyk, G., Myszkowski, K., Seidel, H.-P.
Format: Conference Proceeding
Language:English
Subjects:
backward-compatible coding
color space
Digital images
Displays
Dynamic range
Encoding
HDR
high dynamic range
Humans
Image coding
MPEG
output-referred
scene-referred
Space technology
Transform coding
Video coding
Video compression
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Krawczyk, G.
Myszkowski, K.
Seidel, H.-P.
description Vast majority of digital images and video material stored today can capture only a fraction of visual information visible to the human eye and does not offer sufficient quality to fully exploit capabilities of new display devices. High dynamic range (HDR) image and video formats encode the full visible range of luminance and color gamut, thus offering ultimate fidelity, limited only by the capabilities of the human eye and not by any existing technology. In this paper we demonstrate how existing image and video compression standards can be extended to encode HDR content efficiently. This is achieved by a custom color space for encoding HDR pixel values that is derived from the visual performance data. We also demonstrate how HDR image and video compression can be designed so that it is backward compatible with existing formats.
doi_str_mv 10.1109/ICIP.2007.4378878
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subjects backward-compatible coding
color space
Digital images
Displays
Dynamic range
Encoding
HDR
high dynamic range
Humans
Image coding
MPEG
output-referred
scene-referred
Space technology
Transform coding
Video coding
Video compression
title High Dynamic Range Image and Video Compression - Fidelity Matching Human Visual Performance
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