Cross-Layer Design for Two-Way Relaying Networks with Multiple Antennas

EAI Endorsed Trans. Cogn. Commun. Pub Date : 2015-05-25 DOI:10.4108/icst.mobimedia.2015.259040

Zhuo Wu, Lei Wang

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Abstract

In this paper, we developed a cross-layer design for two-way relaying (TWR) networks with multiple antennas, where two single antenna source nodes exchange information with the aid of one multiple antenna relay node. The proposed cross-layer design considers adaptive modulation (AM) and space-time block coding (STBC) at the physical layer with an automatic repeat request (ARQ) protocol at the data link layer, in order to maximize the spectral efficiency under specific delay and packet error ratio (PER) constraints. An MMSE-interference cancellation (IC) receiver is employed at the relay node, to remove the interference in the fist phase of the TWR transmission. The transmission mode is updated for each phase of the TWR transmission on a frame-by-frame basis, to match the time-varying channel conditions and exploit the system performance and throughput gain. Simulation results show that retransmission at the data link layer could alleviate rigorous error-control requirements at the physical layer, and thereby allows higher data transmission. As a result, cross-layer design helps to achieve considerable system spectral efficiency gain for TWR networks, compared to those without cross-layer design.

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多天线双向中继网络的跨层设计

本文提出了一种多天线双向中继(TWR)网络的跨层设计，其中两个单天线源节点借助一个多天线中继节点交换信息。提出的跨层设计在物理层考虑自适应调制(AM)和空时分组编码(STBC)，在数据链路层考虑自动重复请求(ARQ)协议，以便在特定延迟和包错误率(PER)约束下最大化频谱效率。在中继节点上使用mmse干扰消除(IC)接收器，以消除TWR传输第一阶段的干扰。传输模式在TWR传输的每个阶段逐帧更新，以匹配时变信道条件并利用系统性能和吞吐量增益。仿真结果表明，数据链路层的重传可以减轻物理层严格的错误控制要求，从而实现更高的数据传输。因此，与没有跨层设计的TWR网络相比，跨层设计有助于实现相当大的系统频谱效率增益。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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EAI Endorsed Trans. Cogn. Commun.

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