Achievable Rate Regions for the Two-way Relay Channel

2006 IEEE International Symposium on Information Theory Pub Date : 2006-07-09 DOI:10.1109/ISIT.2006.261638
B. Rankov, A. Wittneben
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引用次数: 526

Abstract

We study the two-way communication problem for the relay channel. Hereby, two terminals communicate simultaneously in both directions with the help of one relay. We consider the restricted two-way problem, i.e., the encoders at both terminals do not cooperate. We provide achievable rate regions for different cooperation strategies, such as decode-and-forward based on block Markov superposition coding. We also evaluate the regions for the special case of additive white Gaussian noise channels. We show that a combined strategy of block Markov superposition coding and Wyner-Ziv coding achieves the cut-set upper bound on the sum-rate of the two-way relay channel when the relay is in the proximity of one of the terminals
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双向中继信道的可实现速率区域
研究了中继信道的双向通信问题。这样,两个终端借助一个继电器在两个方向上同时通信。我们考虑了受限的双向问题,即两端的编码器不合作。我们为不同的合作策略提供了可实现的速率区域,例如基于块马尔可夫叠加编码的解码和转发。我们还对加性高斯白噪声信道的特殊情况下的区域进行了评价。我们证明了分组马尔可夫叠加编码和Wyner-Ziv编码的组合策略在中继靠近其中一个终端时实现了双向中继信道和速率的切集上界
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2006 IEEE International Symposium on Information Theory
2006 IEEE International Symposium on Information Theory
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