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Fast CU Partition Decision Method Based on Texture Characteristics for H.266/VVC

Qiuwen Zhang, Yongbo Zhao, Bin Jiang, Lixun Huang, Wei Tao

2020IEEE Access39 citationsDOIOpen Access PDF

Abstract

The versatile video coding (VVC) is the latest video coding standard, which uses a Multi-Type Tree (MTT) coding structure. Compared with existing video coding standards, this structure can flexibly split coding blocks according to the complex texture features of the image. As MTT structure introduces binary tree (BT) and ternary tree (TT) splitting, it will lead to a sharp increase in computational complexity. In the paper, a fast Coding Unit (CU) size decision method for intra prediction of VVC is proposed, which can significantly reduce the calculation in the intra encoding of VVC. The proposed method consists of two steps: 1) determine whether CU is divided and 2) select the best CU splitting mode. In the intra prediction process, the CU texture complexity is firstly calculated, which judges whether the CU is divided into sub-CUs. Then, the unnecessary splitting mode candidates are discarded according to the relationship between the texture direction and the CU splitting mode. The experimental results show that our proposed fast CU partition method reduces about 48.58% the computational complexity, while the BDBR only increases by 0.91%.

Topics & Concepts

Coding (social sciences)Computational complexity theoryComputer scienceTernary operationPartition (number theory)Decision treeCoding tree unitAlgorithmBinary numberArtificial intelligenceMathematicsStatisticsDecoding methodsArithmeticCombinatoricsProgramming languageVideo Coding and Compression TechnologiesAdvanced Vision and ImagingVideo Analysis and Summarization
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