两个同址用户的中继协议

M. Katz, S. Shamai
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引用次数: 13

摘要

我们考虑一个无线网络,其中远程源将信息发送给两个同址用户中的一个,而第二个用户可以充当中继。源的传输受到准静态平坦瑞利衰落的影响,而中继的传输经历了一个均匀随机相位的固定幅度增益,捕获了它与目的地的近距离。所有通信共享相同的时间/带宽资源,信道状态信息仅为接收方所知。我们提出了基于Wyner-Ziv量化的中继协议,并证明了它们相对于先前报道的基于放大转发和解码转发的中继方案的高效率(就预期吞吐量而言)。这些协议的一个显著特点是,为了执行量化,中继不需要知道目的地实际经历的衰落增益。我们还考虑了一种具有优异性能的混合放大-量化-解码-转发方案
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Relaying protocols for two co-located users
We consider a wireless network where a remote source sends information to one of two co-located users, and where the second user can serve as a relay. The source's transmission is subjected to quasi-static flat Rayleigh fading, while the transmission of the relay experiences a fixed amplitude gain with a uniform random phase, capturing its close proximity to the destination. All communications share the same time/bandwidth resources, and channel state information is known only to the receivers. We propose relaying protocols which are based on Wyner-Ziv quantization at the relay, and demonstrate their high efficiency (in terms of expected throughput) with respect to previously reported relaying schemes based on amplify-and-forward and decode-and-forward. A salient feature of these protocols is that the relay need not know the actual fading gain experienced by the destination in order to perform the quantization. We also consider a hybrid amplify-quantize-decode and-forward scheme which exhibits superior performance
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