解码器侧超分辨率和帧插值改进的H.264视频编码

2013 Data Compression Conference Pub Date : 2013-03-20 DOI:10.1109/DCC.2013.16

H. Ateş

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引用次数: 5

摘要

文献表明，解码器侧运动估计可以提高H.264和HEVC标准的视频编码效率。本文介绍了利用解码器侧超分辨率(SR)和帧插值的H.264编码增强的跳过和直接模式。P帧和b帧的采样和H.264编码在较低的分辨率(LR)。然后利用解码器侧运动估计对重构的LR帧进行超分辨。对于b帧，执行双向真运动估计以从其参考帧合成b帧。对于p帧，双三次插值LR帧被用作替代SR重建。速率失真最优模式选择算法确定每个MB的两个重构中哪一个用作跳过/直接模式预测。仿真表明，与H.264标准相比，在低比特率下，平均PSNR提高1.04 dB或比特率降低23.0%。根据视频内容和帧率的不同，平均PSNR增益可高达3.95 dB。

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Decoder-Side Super-Resolution and Frame Interpolation for Improved H.264 Video Coding

In literature decoder-side motion estimation is shown to improve video coding efficiency of both H.264 and HEVC standards. In this paper we introduce enhanced skip and direct modes for H.264 coding using decoder-side super-resolution (SR) and frame interpolation. P- and B-frames are down sampled and H.264 encoded at lower resolution (LR). Then reconstructed LR frames are super-resolved using decoder-side motion estimation. Alternatively for B-frames, bidirectional true motion estimation is performed to synthesize a B-frame from its reference frames. For P-frames, bicubic interpolation of the LR frame is used as an alternative to SR reconstruction. A rate-distortion optimal mode selection algorithm determines for each MB which of the two reconstructions to use as skip/direct mode prediction. Simulations indicate an average of 1.04 dB PSNR improvement or 23.0% bit rate reduction at low bit rates when compared to H.264 standard. Average PSNR gains reach as high as 3.95 dB depending on the video content and frame rate.

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2013 Data Compression Conference

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