Achievable rate regions for compound multiple access channel with channel state information

2012 IEEE Information Theory Workshop Pub Date : 2012-09-03 DOI:10.1109/ITW.2012.6404764
Mostafa Monemizadeh, G. Hodtani
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引用次数: 6

Abstract

We study the two-user discrete memoryless compound multiple access channel (MAC) with common message and two specially correlated channel states each known non-causally by one of the encoders. Two channel states are correlated in the sense of Slepian-Wolf (SW) in which two correlated states are modeled by three independent states: a common state and two private states. By using superposition coding, binning scheme and jointly decoding, we propose several achievable rates for various cases of the two-user compound MAC with non-causal Slepian-Wolf channel states available at encoders and common message or conferencing encoders. Also, we show that the obtained achievable rate regions are optimal when perfect states are known at both decoders as well.
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具有信道状态信息的复合多址信道的可实现速率区域
研究了一种双用户离散无记忆复合多址信道(MAC),该信道具有共同的消息和两个特殊相关的信道状态,每个状态由一个编码器非因果地知道。两个通道状态在睡眠-狼(SW)的意义上是相关的,其中两个相关状态由三个独立的状态建模:一个公共状态和两个私有状态。通过使用叠加编码、分组和联合解码,我们提出了在编码器和公共消息或会议编码器上具有非因果睡眠-狼信道状态的双用户复合MAC的各种情况下可以实现的几种速率。此外,我们还表明,当两个解码器的完美状态都已知时,所获得的可实现速率区域是最优的。
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2012 IEEE Information Theory Workshop
2012 IEEE Information Theory Workshop
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