环内重塑导致的编码增益分析。

IEEE transactions on image processing : a publication of the IEEE Signal Processing Society Pub Date : 2024-06-10 DOI:10.1109/TIP.2024.3409189

Chau-Wai Wong;Chang-Hong Fu;Mengting Xu;Guan-Ming Su

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引用次数: 0

摘要

重整形是一种改变信号特性的点操作，在视频编码实践中已被证明能够提高压缩比。作为 HEVC/H.265 的补充增强信息（SEI），首次采用了直接修改输入视频信号的环外重整形，而无需改变视频编解码器的核心设计。VVC/H.266 采用环内重塑技术，修改了混合编码环中处理的残余信号，从而进一步提高了编码效率。本文从理论上分析了环内重塑的速率-失真性能，并通过实验验证了理论结果。我们证明，当编码管道中采用的熵编码器为次优编码器时，环内重塑可以提高编码效率，这与视频编解码器的实际应用场景相符。我们以闭合形式推导出 PSNR 增益，并证明理论预测的增益与使用标准测试视频序列进行实验所测得的增益一致。

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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Analysis of Coding Gain Due to In-Loop Reshaping

Reshaping, a point operation that alters the characteristics of signals, has been shown capable of improving the compression ratio in video coding practices. Out-of-loop reshaping that directly modifies the input video signal was first adopted as the supplemental enhancement information (SEI) for the HEVC/H.265 without the need to alter the core design of the video codec. VVC/H.266 further improves the coding efficiency by adopting in-loop reshaping that modifies the residual signal being processed in the hybrid coding loop. In this paper, we theoretically analyze the rate-distortion performance of the in-loop reshaping and use experiments to verify the theoretical result. We prove that the in-loop reshaping can improve coding efficiency when the entropy coder adopted in the coding pipeline is suboptimal, which is in line with the practical scenarios that video codecs operate in. We derive the PSNR gain in a closed form and show that the theoretically predicted gain is consistent with that measured from experiments using standard testing video sequences.

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IEEE transactions on image processing : a publication of the IEEE Signal Processing Society

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