Hierarchical temporal dependent rate-distortion optimization for low-delay coding

2016 IEEE International Symposium on Circuits and Systems (ISCAS) Pub Date : 2016-05-22 DOI:10.1109/ISCAS.2016.7527304

Yanbo Gao, Ce Zhu, Shuai Li

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引用次数: 7

Abstract

Hierarchical coding structure (HCS) is one of the most important components in High Efficiency Video Coding (HEVC) that improves the coding performance greatly, especially for Low-Delay (LD) coding. It groups frames into different layers and enc odes them with different quantization parameters (QP) and different reference mechanisms. Due to the extensively used inter-prediction, the coding of frames in different layers is highly dependent and an appropriate QP and reference selection scheme may significantly improve the performance by taking advantage of such temporal dependency. However in the current HEVC codec, a predefined HCS, such as the Low-Delay HCS (LD-HCS), is performed without considering the different characteristic of different video contents, thus leading to a suboptimal coding solution. In this paper, the hierarchical temporal relationship under LD-HCS is first investigated and a hierarchical temporal propagation chain is constructed to describe the temporal dependency among frames. Then a hierarchical temporal dependent rate-distortion optimization scheme is developed specifically for the LD-HCS in HEVC. Experiments results show that the proposed scheme achieves BD-rate saving of 2.9% and 2.8% in average against HEVC codec under LD-HCS of P and B frames, respectively, with a negligible increase in encoding time.

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低延迟编码的分层时间相关率失真优化

分层编码结构(HCS)是高效视频编码(HEVC)的重要组成部分之一，它极大地提高了编码性能，特别是对低延迟(LD)编码。它将帧分成不同的层，用不同的量化参数(QP)和不同的参考机制进行编码。由于广泛使用的互预测，帧在不同层的编码是高度依赖的，适当的QP和参考选择方案可以利用这种时间依赖性显著提高性能。然而，在目前的HEVC编解码器中，由于没有考虑不同视频内容的不同特性而进行预定义的HCS，如低延迟HCS (LD-HCS)，从而导致次优编码解决方案。本文首先研究了LD-HCS下的层次时间关系，并构造了一个层次时间传播链来描述帧间的时间依赖关系。然后，针对HEVC中的LD-HCS，提出了一种分层时间相关的率失真优化方案。实验结果表明，在P帧和B帧的LD-HCS下，与HEVC编解码器相比，该方案的bd速率平均节省2.9%和2.8%，而编码时间的增加可以忽略不计。

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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2016 IEEE International Symposium on Circuits and Systems (ISCAS)

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