Hardware friendly background analysis based complexity reduction in H.264/AVC multiple reference frames motion estimation

2007 International Symposium on Intelligent Signal Processing and Communication Systems Pub Date : 2007-11-01 DOI:10.1109/ISPACS.2007.4445957

Yiqing Huang, Zhenyu Liu, S. Goto, T. Ikenaga

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引用次数: 10

Abstract

In H.264 standard, multiple reference frame motion estimation (MRF- ME) can help to generate small residues and improve the performance. However, MRF-ME is also a computation intensive task for video coding system. Many software oriented fast algorithms have been proposed to shorten MRF-ME process. For hardwired real-time encoder, the division of ME part into two pipeline stages degrades the efficiency of many fast algorithms. This paper gives one hardware friendly MRF-ME algorithm to reduce computation complexity in MRF-ME procedure. The proposed algorithm is based on the analysis of macroblock's (MB's) feature and restricts search range for static background MB. Through experiment results, with negligible video quality degradation, the proposed background analysis based MRF-ME algorithm can averagely reduce 41.75% ME time for sequences with static background. Moreover, the proposed algorithm is compatible to other fast algorithms and friendly to hardware implementation of H.264 real-time encoder.

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基于硬件友好背景分析的H.264/AVC多参考帧运动估计复杂度降低

在H.264标准中，多参考帧运动估计(MRF- ME)有助于产生较小的残差，提高性能。然而，对于视频编码系统来说，MRF-ME也是一项计算量很大的任务。为了缩短MRF-ME过程，提出了许多面向软件的快速算法。对于硬连线实时编码器，将ME部分划分为两个流水线阶段降低了许多快速算法的效率。为了降低MRF-ME过程的计算复杂度，提出了一种硬件友好的MRF-ME算法。该算法基于对宏块(macroblock, MB)特征的分析，对静态背景MB的搜索范围进行了限制。实验结果表明，基于背景分析的MRF-ME算法对静态背景序列的ME时间平均减少41.75%，视频质量下降可以忽略不计。此外，该算法与其他快速算法兼容，并且易于H.264实时编码器的硬件实现。

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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2007 International Symposium on Intelligent Signal Processing and Communication Systems

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