Extended Transform Skip Mode and Fast Multiple Transform Set Selection in VVC

2019 Picture Coding Symposium (PCS) Pub Date : 2019-11-01 DOI:10.1109/PCS48520.2019.8954540

Tung Nguyen, B. Bross, Paul Keydel, H. Schwarz, D. Marpe, T. Wiegand

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引用次数: 11

Abstract

The Versatile Video Coding (VVC) development has adopted the possibility to bypass the transform when the transform block size is equal to 4×4 from its predecessor High Efficiency Video Coding (HEVC). This so-called Transform Skip Mode (TSM) results in increased encoding time when extending it to transform block sizes up to 32×32 while the compression efficiency improvement is for screen content only. This paper presents the so-called Unified MTS scheme that makes TSM for luma transform block sizes up to 32×32 possible without the disadvantage of excessive encoding time increase by incorporating the TSM with the existing Multiple Transform Set (MTS) technique. The Unified MTS scheme achieves compression efficiency improvements, in terms of BD-rate, of about −5.0% in the All-Intra configuration and −5.4% in the Random-Access configuration, respectively, for the screen content sequences of the used test set. Compared to the straightforward extension of TSM to transform block sizes up to 32×32, the encoding time is about 25% less in the All-Intra configuration and about 21% less in the Random-Access configuration, respectively, whereas the compression efficiency improvements are only 0.04% less in the All-Intra configuration, and 0.09% less in the Random-Access configuration, respectively. Relative to the anchor using TSM for 4×4 transform blocks only, the encoding time is the same for natural content and 3% higher for screen content.

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VVC中扩展的变换跳过模式和快速多变换集选择

多功能视频编码(VVC)的发展从其前身高效视频编码(HEVC)中采用了当变换块大小等于4×4时绕过变换的可能性。这种所谓的转换跳过模式(TSM)在将其扩展到转换块大小到32×32时导致编码时间增加，而压缩效率的提高仅适用于屏幕内容。本文提出了所谓的统一MTS方案，通过将TSM与现有的多变换集(Multiple transform Set, MTS)技术相结合，使luma变换块大小的TSM在不增加编码时间过多的缺点下达到32×32。对于所使用的测试集的屏幕内容序列，统一MTS方案在All-Intra配置和Random-Access配置中分别实现了约- 5.0%和- 5.4%的压缩效率提高(就bd率而言)。与直接扩展TSM以将块大小转换为32×32相比，All-Intra配置的编码时间分别减少了约25%和约21%，而All-Intra配置的压缩效率分别仅减少0.04%和0.09%。相对于仅对4×4转换块使用TSM的锚，自然内容的编码时间相同，屏幕内容的编码时间高3%。

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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2019 Picture Coding Symposium (PCS)

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