HEVC中残差四叉树编码

2011 IEEE 13th International Workshop on Multimedia Signal Processing Pub Date : 2011-12-01 DOI:10.1109/MMSP.2011.6093805

Y. H. Tan, Chuohao Yeo, Hui Li Tan, Zhengguo Li

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引用次数: 27

摘要

在当前的HEVC工作草案中，残差四叉树(RQT)编码在Intra和Inter编码单元(CU)中对预测残差进行编码。然而，在这两种情况下，使用RQT作为编码工具的基本原理是不同的。对于内部预测单元，RQT提供了一种有效的语法，可以用相同的内部预测模式对许多子块进行编码。对于Inter CU, RQT适应CU的空间-频率变化，使用尽可能大的变换大小，同时满足残差统计量的局部变化。在提供编码增益的同时，RQT的有效使用目前需要对块内所有可能的转换大小组合进行详尽的搜索。在本文中，我们利用我们的见解开发了两种快速RQT算法，每种算法都旨在满足内部和内部预测残差编码的需求。

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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On residual quad-tree coding in HEVC

In the current working draft of HEVC, residual quad-tree (RQT) coding is used to encode prediction residuals in both Intra and Inter coding units (CU). However, the rationale for using RQT as a coding tool is different in the two cases. For Intra prediction units, RQT provides an efficient syntax for coding a number of sub-blocks with the same intra prediction mode. For Inter CUs, RQT adapts to the spatial-frequency variations of the CU, using as large a transform size as possible while catering to local variations in residual statistics. While providing coding gains, effective use of RQT currently requires an exhaustive search of all possible combinations of transform sizes within a block. In this paper, we exploit our insights to develop two fast RQT algorithms, each designed to meet the needs of Intra and Inter prediction residual coding.

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2011 IEEE 13th International Workshop on Multimedia Signal Processing

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