Suche nach „[S.] [Tourancheau]“ hat 3 Publikationen gefunden
Suchergebnis als PDF
    DigitalF: Angewandte Informatik

    Beitrag (Sammelband oder Tagungsband)

    K. Wang, K. Brunnström, Marcus Barkowsky, M. Urvoy, M. Sjöström, P. Le Callet, S. Tourancheau, B. Andrén

    Stereoscopic 3D video coding quality evaluation with 2D objective metrics

    Proceedings of SPIE Vol. 8648: Stereoscopic Displays and Applications XXIV


    Abstract anzeigen

    The 3D video quality is of highest importance for the adoption of a new technology from a user’s point of view. In this paper we evaluated the impact of coding artefacts on stereoscopic 3D video quality by making use of several existing full reference 2D objective metrics. We analyzed the performance of objective metrics by comparing to the results of subjective experiment. The results show that pixel based Visual Information Fidelity metrics fits subjective data the best. The 2D stereoscopic video quality seems to have dominant impact on the coding artefacts impaired stereoscopic videos.

    DigitalF: Angewandte Informatik

    Beitrag (Sammelband oder Tagungsband)

    S. Tourancheau, K. Wang, J. Bulat, R. Cousseau, L. Janowski, K. Brunnström, Marcus Barkowsky

    Reproducibility of crosstalk measurements on active glasses 3D LCD displays based on temporal characterization

    Proceedings of SPIE Vol. 8288: Stereoscopic Displays and Applications XXIII


    ISBN: 9780819489357

    Abstract anzeigen

    Crosstalk is one of the main display-related perceptual factors degrading image quality and causing visual dis-comfort on 3D-displays. It causes visual artifacts such as ghosting eects, blurring, and lack of color delitywhich are considerably annoying and can lead to diculties to fuse stereoscopic images. On stereoscopic LCDwith shutter-glasses, crosstalk is mainly due to dynamic temporal aspects: imprecise target luminance (highlydependent on the combination of left-view and right-view pixel color values in disparity regions) and synchro-nization issues between shutter-glasses and LCD. These dierent factors inuence largely the reproducibilityof crosstalk measurements across laboratories and need to be evaluated in several dierent locations involvingsimilar and diering conditions. In this paper we propose a fast and reproducible measurement procedure forcrosstalk based on high-frequency temporal measurements of both display and shutter responses. It permitsto fully characterize crosstalk for any right/left color combination and at any spatial position on the screen.Such a reliable objective crosstalk measurement method at several spatial positions is considered a mandatoryprerequisite for evaluating the perceptual inuence of crosstalk in further subjective studies.

    DigitalF: Angewandte Informatik


    Marcus Barkowsky, S. Tourancheau, K. Brunnström, K. Wang, B. Andrén

    55.3: Crosstalk Measurements of Shutter Glasses 3D Displays

    SID Symposium Digest of Technical Papers, vol. 42, no. 1, pp. 812-815


    Abstract anzeigen

    Crosstalk is probably one of the main perceptual factors contributing to perceived image quality and visual comfort. The Video Quality Experts Group (VQEG) within their 3D video quality project is specifying a practical measurement procedure that will produce consistent results across laboratories. This paper is part of that effort. Two different method of measuring cross talk on shutter glasses stereo displays have been studied. One is based on time average luminance measurements and the other on temporal measurements. The results show that crosstalk is roughly 0.5% but that there are differences in the crosstalk between the two eyes in the shutter glasses.