基于格拉斯曼流形封装的双向无线中继网络非相干自动对焦方案

International Symposium on Information Theory and its Applications. International Symposium on Information Theory and its Applications Pub Date : 2010-12-03 DOI:10.1109/ISITA.2010.5649198

Z. Utkovski, Yao Cheng, J. Lindner

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引用次数: 3

摘要

基于对无信道知识的点对点分组MIMO衰落信道的研究结果，提出了一种基于半双工约束的非相干双向中继信道自动对焦方案。通信分两个阶段进行，组播和广播。在组播阶段，终端同时发送信号。在广播阶段，中继器重发在广播阶段接收到的信号。代码结构基于格拉斯曼流形中的子空间填充。我们表明，尽管在终端或继电器上都不假设信道知识，但终端能够减去接收信号的自干扰部分。性能分析表明，非相干双向中继优于非相干单向中继，并有望提高频谱效率。

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A non-coherent AF scheme for two-way wireless relay networks based on packings in Grassmann manifolds

Motivated from results for the point-to-point block MIMO fading channels without channel knowledge, we propose an AF scheme for the non-coherent two-way relaying channel with the half-duplex constraint. The communication takes place in two phases, multicast and broadcast. In the multicast phase the terminals send the signals simultaneously. In the broadcast phase, the relays resend the signal received in the broadcast phase. The code construction is based on subspace packings in the Grassmann manifolds. We show, that although no channel knowledge is assumed at either the terminals or at the relays, the terminals are able to subtract the self-interference part of the received signal. The performance analysis shows that the noncoherent two-way relaying outperforms non-coherent one-way relaying and delivers the promise of increased spectral efficiency.

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International Symposium on Information Theory and its Applications. International Symposium on Information Theory and its Applications

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