Direct optimisation of λ for HDR content adaptive transcoding in AV1

Applications of Digital Image Processing XLV Pub Date : 2022-08-23 DOI:10.1117/12.2632272

Vibhoothi, Franccois Pitie, Angeliki V. Katsenou, D. Ringis, Y. Su, N. Birkbeck, Jessie Lin, Balu Adsumilli, A. Kokaram

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引用次数: 4

Abstract

Since the adoption of VP9 by Netflix in 2016, royalty-free coding standards continued to gain prominence through the activities of the AOMedia consortium. AV1, the latest open source standard, is now widely supported. In the early years after standardisation, HDR video tends to be under served in open source encoders for a variety of reasons including the relatively small amount of true HDR content being broadcast and the challenges in RD optimisation with that material. AV1 codec optimisation has been ongoing since 2020 including consideration of the computational load. In this paper, we explore the idea of direct optimisation of the Lagrangian $\lambda$ parameter used in the rate control of the encoders to estimate the optimal Rate-Distortion trade-off achievable for a High Dynamic Range signalled video clip. We show that by adjusting the Lagrange multiplier in the RD optimisation process on a frame-hierarchy basis, we are able to increase the Bjontegaard difference rate gains by more than 3.98$\times$ on average without visually affecting the quality.

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AV1中HDR内容自适应转码λ的直接优化

自2016年Netflix采用VP9以来，通过AOMedia联盟的活动，免版税编码标准继续得到重视。最新的开源标准AV1现在得到了广泛的支持。在标准化后的最初几年，HDR视频往往在开源编码器中服务不足，原因有很多，包括广播的真正HDR内容相对较少，以及对这些内容进行研发优化的挑战。AV1编解码器优化自2020年以来一直在进行，包括考虑计算负载。在本文中，我们探讨了直接优化用于编码器速率控制的拉格朗日$\lambda$参数的思想，以估计高动态范围信号视频剪辑可实现的最佳速率失真权衡。我们表明，通过在帧层次的基础上调整RD优化过程中的拉格朗日乘子，我们能够在不影响视觉质量的情况下平均将比昂特加德差分率增益提高3.98倍以上。

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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Applications of Digital Image Processing XLV

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