A Fast TU Size Decision Method for HEVC RQT Coding

Jinfu Wu; Baolong Guo; Yunyi Yan; Jie Hou; Dan Zhao

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TIIS (한국인터넷정보학회)

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한글제목(Korean Title)	A Fast TU Size Decision Method for HEVC RQT Coding
영문제목(English Title)	A Fast TU Size Decision Method for HEVC RQT Coding
저자(Author)	Jinfu Wu Baolong Guo Yunyi Yan Jie Hou Dan Zhao
원문수록처(Citation)	VOL 09 NO. 06 PP. 2271 ~ 2288 (2015. 06)
한글내용 (Korean Abstract)
영문내용 (English Abstract)	The emerging high efficiency video coding (HEVC) standard adopts the quadtree-structured transform unit (TU) in the residual quadtree (RQT) coding. Each TU allows to be split into four equal sub-TUs recursively. The RQT coding is performed for all the possible transform depth levels to achieve the highest coding efficiency, but it requires a very high computational complexity for HEVC encoders. In order to reduce the computational complexity requested by the RQT coding, in this paper, we propose a fast TU size decision method incorporating an adaptive maximum transform depth determination (AMTD) algorithm and a full check skipping - early termination (FCS-ET) algorithm. Because the optimal transform depth level is highly content-dependent, it is not necessary to perform the RQT coding at all transform depth levels. By the AMTD algorithm, the maximum transform depth level is determined for current treeblock to skip those transform depth levels rarely used by its spatially adjacent treeblocks. Additionally, the FCS-ET algorithm is introduced to exploit the correlations of transform depth level between four sub-CUs generated by one coding unit (CU) quadtree partitioning. Experimental results demonstrate that the proposed overall algorithm significantly reduces on average 21% computational complexity while maintaining almost the same rate distortion (RD) performance as the HEVC test model reference software, HM 13.0.
키워드(Keyword)	RQT coding video compression TU size decision HEVC/H.265
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