Device-to-Device Communication Aided by Two-Way Relay Underlaying Cellular Network

Pratap Khuntia, Ranjay Hazra
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引用次数: 6

Abstract

In this paper, we investigate the performance of device-to-device (D2D) communication assisted by two-way detect and forward (DF) relaying. Here, we derive an accurate approximate expression for sum-rate of two-way relaying D2D link under varying interference from cellular users and base station (BS). The analytical results reveal that D2D communication using relaying strategy provides a better and reliable communication in terms of maximum achievable sum-rate as compared to cellular communication mode. The two-way relaying technique improves bit error probability (BEP) by mitigating interference in the first phase of two-way transmission. On the basis of instantaneous signal to noise ratio (SNR), the combiner at the destination node follows an adaptive weight update process to improve the BEP performance in the second phase. We also analyze heuristic mode selection and resource allocation strategies in cellular network in association with multi-node two-way relay scheme, which not only boosts the energy efficiency of the system but also extends the coverage of cellular network.
基于蜂窝网络的双向中继辅助的设备间通信
在本文中,我们研究了由双向检测和转发(DF)中继辅助的设备到设备(D2D)通信的性能。在此,我们导出了在不同蜂窝用户和基站(BS)干扰下双向中继D2D链路和速率的精确近似表达式。分析结果表明,与蜂窝通信模式相比,采用中继策略的D2D通信在最大可实现和速率方面提供了更好的可靠通信。双向中继技术通过减轻双向传输第一阶段的干扰来提高误码率(BEP)。基于瞬时信噪比(SNR),目标节点的合并器遵循自适应权值更新过程,以提高第二阶段的BEP性能。结合多节点双向中继方案,分析了蜂窝网络中启发式模式选择和资源分配策略,该策略不仅提高了系统的能源效率,而且扩大了蜂窝网络的覆盖范围。
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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