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引用次数: 84
摘要
本文描述了一种带有反馈信道的Wyner-Ziv视频编码方案的混合编解码器速率控制。该方法首先基于在编码器上估计sleep - wolf (SW)编码数据所需的最小速率的方法。这种估计只使用了拉帕西相关模型。解码器然后根据在SW解码器输出处计算的似然比估计每个解码位平面的误码率(BER)。利用基于循环冗余校验和的错误检测机制,进一步提高了误码率估计的鲁棒性。实验结果表明,通过计算原始数据和解码数据之间的汉明距离获得的速率失真性能相当。此外,混合编码器/解码器速率控制降低了解码复杂性以及返回信道的使用。
A Hybrid Encoder/Decoder Rate Control for Wyner-Ziv Video Coding with a Feedback Channel
This paper describes a hybrid coder/decoder rate control for a Wyner-Ziv video coding scheme with a feedback channel. The approach is first based on a method to estimate at the encoder the minimum rate required for the Slepian-Wolf (SW) encoded data. This estimation makes use only of the Lapacian correlation model. The decoder then estimates the bit error rate (BER) for each decoded bit plane from likelihood ratios computed at the output of the SW decoder. The robustness of the BER estimation is further improved by the use of an error detection mechanism based on a cyclic redundancy checksum. Experimental results show that rate-distortion performances are comparable to those which would be obtained by computing the Hamming distance between the original and the decoded data. In addition the hybrid coder/decoder rate control reduces the decoding complexity as well as the usage of the return channel.
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