On the capacity of the relay channel with known state at the source

2015 Iran Workshop on Communication and Information Theory (IWCIT) Pub Date : 2015-05-06 DOI:10.1109/IWCIT.2015.7140208
M. N. Khormuji, M. Emadi
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Abstract

We investigate the general relay channel with state that is noncausally known at the source. We first present a multiletter characterization of the capacity using the Gelfand-Pinsker encoding scheme. We then tailor the result to the general Gaussian relay channel with additive interference noncausally known at the source and compute a closed-form lower bound to the capacity using the joint dirty paper coding (DPC) and multidimensional linear relaying. We finally demonstrate that a potentially suboptimal evaluation of the proposed lower bound can simultaneously outperform known state-of-art coding strategies including DPC with signal description or state description along with compress-and-forward, noisy network coding and decode-and-forward.
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在源处状态已知的中继信道的容量
我们研究了在源处具有非因果已知状态的一般中继信道。我们首先使用Gelfand-Pinsker编码方案提出了容量的多字母表征。然后,我们将结果调整到具有源处非因果已知的加性干扰的一般高斯中继信道,并使用联合脏纸编码(DPC)和多维线性继电器计算出容量的封闭形式下界。我们最后证明,对所提出的下界的潜在次优评估可以同时优于已知的最先进的编码策略,包括带有信号描述或状态描述的DPC,以及压缩和转发、噪声网络编码和解码和转发。
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2015 Iran Workshop on Communication and Information Theory (IWCIT)
2015 Iran Workshop on Communication and Information Theory (IWCIT)
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