Encoder rate control for block-based distributed video coding

2010 IEEE International Workshop on Multimedia Signal Processing Pub Date : 2010-12-10 DOI:10.1109/MMSP.2010.5662042

Chen Fu, Joohee Kim

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引用次数: 9

Abstract

Distributed video coding is a new paradigm for video compression based on the Slepian-Wolf and Wyner-Ziv theorems. Wyner-Ziv video coding, a lossy compression with receiver side information, enables low-complexity video encoding at the expense of a complex decoder. Most of the existing distributed video coding techniques require a feedback channel to determine the number of parity bits for decoding Wyner-Ziv frames at the decoder. However, a feedback channel is not available for some applications or a feedback channel-based decoder rate control may not be used due to delay constraints in wireless video sensor network applications. In this paper, an encoder-based rate control method for distributed video coding is proposed. The proposed solution consists of a low complexity side information generation method at the encoder and a rate estimation algorithm that determines the number of parity bits to be transmitted to the decoder. The performance of the proposed algorithm is compared with existing encoder-based rate control methods and a decoder-based rate control algorithm based on a feedback channel.

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基于块的分布式视频编码的编码器速率控制

分布式视频编码是基于Slepian-Wolf定理和Wyner-Ziv定理的一种新的视频压缩范式。Wyner-Ziv视频编码是一种带有接收端信息的有损压缩，以牺牲复杂的解码器为代价实现低复杂度的视频编码。大多数现有的分布式视频编码技术需要一个反馈通道来确定解码Wyner-Ziv帧的奇偶校验位的数量。然而，由于无线视频传感器网络应用中的延迟限制，反馈通道不可用于某些应用，或者基于反馈通道的解码器速率控制可能无法使用。本文提出了一种基于编码器的分布式视频编码速率控制方法。提出的解决方案包括在编码器处的低复杂度侧信息生成方法和确定要传输到解码器的奇偶校验位数的速率估计算法。将该算法的性能与现有的基于编码器的速率控制方法和基于反馈信道的基于解码器的速率控制算法进行了比较。

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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2010 IEEE International Workshop on Multimedia Signal Processing

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