30 Years of Video Coding Evolution - What Can We Learn from it in Terms of QoE?

IF 0.5 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Advances in Electrical and Electronic Engineering Pub Date : 2022-10-03 DOI:10.15598/aeee.v20i3.3998

Tomas Mizdos, M. Barkowsky, P. Počta, M. Uhrina

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Abstract

. From the beginnings of ITU-T H.261 to H.265 (HEVC), each new video coding standard has aimed at halving the bitrate at the same perceptual quality by redundancy and irrelevancy reduction. Each improvement has been explained by comparably small changes in the video coding toolset. This contribu-tion aims at starting the Quality of Experience (QoE) analysis of the accumulated improvements over the last thirty years. Based on an overview of the changes in the coding tools, we analyze the changes in the quantized residual information. Visual comparison and statistical measures are performed and some interpreta-tions are provided towards explaining how irrelevancy reduction may have led to such a huge reduction in bitrate. The interpretation of the results in terms of QoE paves the way towards an understanding of the coding tools in terms of visual quality. It may help in understanding how the irrelevancy reduction has been improved over the decades. the differences of the residuals relate to known or yet un-known properties of the human visual system, may en-able a closer collaboration between perception research and video compression research.

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视频编码发展30年-从QoE的角度来看，我们能从中学到什么？

从ITU-T H.261开始到H.265（HEVC），每一个新的视频编码标准都旨在通过冗余和无关性减少来在相同感知质量下将比特率减半。视频编码工具集中相对较小的变化解释了每一项改进。该贡献旨在开始对过去三十年中积累的改进进行体验质量（QoE）分析。基于对编码工具变化的概述，我们分析了量化残差信息的变化。进行了视觉比较和统计测量，并提供了一些解释来解释不相关的减少是如何导致比特率如此巨大的降低的。根据QoE对结果的解释为理解视觉质量方面的编码工具铺平了道路。这可能有助于理解几十年来无关紧要的减少是如何得到改善的。残差的差异与人类视觉系统的已知或未知特性有关，可能能够在感知研究和视频压缩研究之间进行更紧密的合作。

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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