流式MPEG-4 FGS视频的恒定质量率控制

2002 IEEE International Symposium on Circuits and Systems. Proceedings (Cat. No.02CH37353) Pub Date : 2002-08-07 DOI:10.1109/ISCAS.2002.1010513

Lifeng Zhao, JongWon Kim, C.-C. Jay Kuo

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引用次数: 33

摘要

提出了一种用于mpeg - 4fgs(细粒度可扩展性)视频的恒质量视频速率控制(CQVRC)方案。当视频源或传输带宽发生较大变化时，该方案可以缓解连续帧之间的质量变化。CQVRC利用MPEG-4的不可扩展基础层(BL)和可扩展增强层(EL)来实现更平滑的视频质量。为了利用视频流对延迟的宽松要求，CQVRC利用了更大的解码器缓冲区、未来帧信息和时间场景分割。该算法通过在每个位平面内嵌入一个率失真(R-D)对，构建一个分段线性R-D模型，实现了EL的CQVRC。实验结果表明，CQVRC与MPEG-4 FGS虚拟机方法相比，PSNR增益高于1 dB, PSNR变化较小。MPEG-4 FGS虚拟机方法采用MPEG-4虚拟机速率控制编码BL, EL采用均匀比特分配。

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Constant quality rate control for streaming MPEG-4 FGS video

This paper presents a constant quality video rate control (CQVRC) scheme for MPEG-4 FGS (fine-grain scalability) video. The proposed scheme can mitigate quality variations among consecutive frames during the period when there is significant change in the video source or the transmission bandwidth. CQVRC utilizes both non-scalable base layer (BL) and scalable enhancement layer (EL) of MPEG-4 for smoother video quality. To take advantage of the relaxed delay requirement of streaming video, CQVRC for BL exploits a larger decoder buffer, future frame information, and temporal scene segmentation. CQVRC for EL is achieved by embedding one rate-distortion (R-D) pair in each bitplane to construct a piecewise linear R-D model. Experiment results show higher than 1 dB PSNR gain and smaller PSNR variation by comparing the proposed CQVRC with current MPEG-4 FGS VM approach, where BL is encoded with MPEG-4 VM rate control and uniform bit allocation is applied to EL.

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来源期刊

2002 IEEE International Symposium on Circuits and Systems. Proceedings (Cat. No.02CH37353)

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