Estimation-Theoretic Delayed Decoding of Predictively Encoded Video Sequences

2010 Data Compression Conference Pub Date : 2010-03-24 DOI:10.1109/DCC.2010.18

Jingning Han, Vinay Melkote, K. Rose

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引用次数: 14

Abstract

Current video coding schemes employ motion compensation to exploit the fact that the signal forms an auto-regressive process along the motion trajectory, and remove temporal redundancies with prior reconstructed samples via prediction. However, the decoder may, in principle, also exploit correlations with received encoding information of future frames. In contrast to current decoders that reconstruct every block immediately as the corresponding quantization indices are available, we propose an estimation-theoretic delayed decoding scheme which leverages quantization and motion information of one or more future frames to refine the reconstruction of the current block. The scheme, implemented in the transform domain, efficiently combines all available (including future) information in an appropriately derived conditional pdf, to obtain the optimal delayed reconstruction of each transform coefficient in the frame. Experiments demonstrate substantial gains over the standard H.264 decoder. The scheme learns the autoregressive model from information available to the decoder, and compatibility with the standard syntax and existing encoders is retained.

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预测编码视频序列的估计理论延迟解码

当前的视频编码方案采用运动补偿来利用信号沿运动轨迹形成自回归过程的事实，并通过预测消除与先前重构样本的时间冗余。然而，解码器原则上也可以利用与接收到的未来帧的编码信息的相关性。当前的解码器在有相应的量化指标时立即重建每个块，与之相反，我们提出了一种估计理论的延迟解码方案，该方案利用量化和一个或多个未来帧的运动信息来改进当前块的重建。该方案在变换域中实现，有效地将所有可用(包括未来)信息组合在适当导出的条件pdf中，以获得帧中每个变换系数的最优延迟重构。实验表明，与标准的H.264解码器相比，该解码器的性能有很大提高。该方案从解码器可用的信息中学习自回归模型，并保持与标准语法和现有编码器的兼容性。

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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2010 Data Compression Conference

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