在立体视频中自动检测深度跳切和弯曲窗口效果

IVMSP 2013 Pub Date : 2013-06-10 DOI:10.1109/IVMSPW.2013.6611907

Sotirios Delis, N. Nikolaidis, I. Pitas

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引用次数: 4

摘要

如今，3D电视和3D电影的普及程度显著提高。新的电影片名以3D形式发行，全世界有超过35个国家的电视频道播放3D节目。众所周知，随着3D视频内容的可用性增加，立体感与某些3D视频质量问题相关，这可能会对3D观看体验产生负面影响，这一点变得更加明显。在本文中，我们提出了两种新的算法，利用现有的视差信息来检测两个令人不安的立体问题，即深度跳切和弯曲窗口效应。给出了典型的示例来评估算法的性能。所提出的算法可以在后期制作阶段提供帮助，在大多数情况下，可以修复检测到的问题，也可以评估立体视频内容的整体质量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Automatic detection of depth jump cuts and bent window effects in stereoscopic videos

3DTV and 3D cinema witness a significant increase in their popularity nowadays. New movie titles are released in 3D and there are more than 35 TV channels in various countries that broadcast in 3D worldwide. It is well known today and becomes more obvious, as the 3D video content availability increases, that stereoscopy is associated with certain 3D video quality issues that may affect in a negative way the 3D viewing experience. In this paper, we propose two novel algorithms that exploit available disparity information to detect two disturbing stereoscopic issues, namely depth jump cuts and bent window effects. Representative examples are provided to assess the algorithms performance. The proposed algorithms can be helpful in the post-production stage, where, in most cases, the detected issues can be fixed, and also in assessing the overall quality of stereoscopic video content.

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IVMSP 2013

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