Binary tree decomposition depth coding for 3D video applications

2011 IEEE International Conference on Multimedia and Expo Pub Date : 2011-07-11 DOI:10.1109/ICME.2011.6012254

Gonçalo Carmo, M. Naccari, F. Pereira

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引用次数: 6

Abstract

Recent advances in three dimensional display technologies and the growing efforts put in the production of three dimensional videos are intensely demanding for new, more efficient three dimensional content representation formats. One promising format is the so-called multiview plus depth format where multiple views of the observed scene are represented together with a per pixel depth map. Naturally, this format requires to efficiently code not only the video views but also the depth data. In this context, this paper proposes a novel depth map codec encoding the depth data by means of a binary tree triangular decomposition and reconstructing the depth map values by means of a triangle based planar approximation. For depth maps related to typical three dimensional video contents, the proposed depth map codec outperforms both the H.264/AVC standard with all intra coding modes enabled and the JPEG standard. In particular, for the same objective reconstruction quality, the proposed codec allows an average bitrate reduction of 60% and 90% regarding H.264/AVC Intra and JPEG coding, respectively.

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二叉树分解深度编码的3D视频应用

三维显示技术的最新进展和三维视频制作方面的不断努力强烈要求新的、更有效的三维内容表示格式。一种有前途的格式是所谓的多视图加深度格式，其中观察到的场景的多个视图与每像素深度图一起表示。当然，这种格式不仅需要有效地编码视频视图，还需要有效地编码深度数据。在此背景下，本文提出了一种新的深度图编解码器，利用二叉树三角形分解对深度数据进行编码，并利用基于三角形的平面近似重构深度图值。对于与典型三维视频内容相关的深度图，所提出的深度图编解码器在启用所有帧内编码模式的情况下都优于H.264/AVC标准和JPEG标准。特别是，对于相同的客观重建质量，所提出的编解码器允许平均比特率分别降低60%和90%关于H.264/AVC Intra和JPEG编码。

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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2011 IEEE International Conference on Multimedia and Expo

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