关于Wyner-Ziv源和Gel'fand-Pinsker通道的联合信源信道编码

IEEE Trans. Inf. Theory Pub Date : 2003-11-01 DOI:10.1109/TIT.2003.818410

N. Merhav, S. Shamai

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引用次数: 77

摘要

我们考虑了一个通信系统中的有损联合源信道编码问题，其中编码器可以访问信道状态信息(CSI)，而解码器可以访问与源相关的侧信息。这种配置结合了Wyner-Ziv(1976)模型的纯有损源编码与侧信息在解码器和香农/凝胶'fand-Pinsker(1958, 1980)模型的纯信道编码与CSI在编码器。我们证明了该通信系统的分离定理，该定理证明了首先使用最优Wyner-Ziv源代码，然后使用最优Gel'fand-Pinsker信道代码时，不存在渐近最优性损失。然后，我们推导了逐符号(标量)源信道代码的最优性条件，并演示了满足这些条件的情况。最后，我们讨论了一些实际应用，包括所讨论的模型有用的覆盖通信。

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On joint source-channel coding for the Wyner-Ziv source and the Gel'fand-Pinsker channel

We consider the problem of lossy joint source-channel coding in a communication system where the encoder has access to channel state information (CSI) and the decoder has access to side information that is correlated to the source. This configuration combines the Wyner-Ziv (1976) model of pure lossy source coding with side information at the decoder and the Shannon/Gel'fand-Pinsker (1958, 1980) model of pure channel coding with CSI at the encoder. We prove a separation theorem for this communication system, which asserts that there is no loss in asymptotic optimality in applying, first, an optimal Wyner-Ziv source code and, then, an optimal Gel'fand-Pinsker channel code. We then derive conditions for the optimality of a symbol-by-symbol (scalar) source-channel code, and demonstrate situations where these conditions are met. Finally, we discuss a few practical applications, including overlaid communication where the model under discussion is useful.

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IEEE Trans. Inf. Theory

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