Meng Wang, Junru Li, Li Zhang, Kai Zhang, Hongbin Liu, Shiqi Wang, S. Kwong, Siwei Ma
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引用次数: 20
摘要
与传统的四叉树结构相比,四叉树加二叉树(QTBT)编码单元(CU)划分结构在HEVC中表现出良好的编码性能,已被应用于下一代视频编码标准。本文提出了扩展四叉树(Extended four -tree, EQT)分区,进一步扩展了QTBT方案,提高了分区的灵活性。更具体地说,EQT将一个父CU划分为四个不同大小的子CU,这可以充分地建模局部图像内容,而QTBT无法对其进行详细表征。同时,EQT分区允许与BT分区交叉,增强适应性。在JEM7-QTBT-Only平台上的实验结果表明,EQT在随机接入、低延迟P和低延迟B配置下的BD-Rate分别提高了3.17%、3.20%和3.06%,具有更好的编码性能。
Extended Quad-Tree Partitioning for Future Video Coding
The quad-tree plus binary-tree (QTBT) coding unit (CU) partitioning structure, which has been adopted to the next generation video coding standard, shows promising coding performance when compared with the conventional quad-tree structure in HEVC. In this paper, we propose the Extended Quad-tree (EQT) partitioning, which further extends the QTBT scheme and increases the partitioning exibility. More specifcally, EQT splits a parent CU into four sub-CUs of dierent sizes, which can adequately model the local image content that cannot be elaborately characterized with QTBT. Meanwhile, EQT partitioning allows the interleaving with BT partitioning for enhanced adaptability. Experimental results on the JEM7-QTBT-Only platform show that EQT brings better coding performance with 3.17%, 3.20% and 3.06% BD-Rate gains under random access, low-delay P and low-delay B configurations, respectively.
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