Network coding gain in device-to-device underlaying primary communications

2014 1st International Workshop on Cognitive Cellular Systems (CCS) Pub Date : 2014-10-23 DOI:10.1109/CCS.2014.6933801

Engy M. Maher, K. Hassan

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引用次数: 7

Abstract

Direct device-to-device (D2D) communication between cellular equipments is proposed to increase data-rate and extend conventional cellular coverage, by introducing underlaying communications with cellular network in cognitive fashion. For enhancing D2D coverage and reliability, we consider advanced relaying techniques. We study D2D communications over more than one hop using relay nodes, i.e., we study utilization of idle devices in connecting the D2D Tx and Rx playing the role of relays. This relaying technique can be implemented using network coding (NC) to provide extra redundancy in the network. With the help of Monte Carlo simulations, we investigate the network performance by comparing the sum rate of the D2D underlaying cellular network achieved with and without NC. It is shown that the physical network coding protocol outperforms the traditional routing scheme, while the digital network coding lies between the performance of both thus offering a good compromise. Finally we show that by considering the best case relay selection can significantly increase the system performance.

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设备对设备底层初级通信中的网络编码增益

采用认知方式引入蜂窝网络的底层通信，提出了蜂窝设备间的直接设备对设备(D2D)通信，以提高数据速率和扩展传统的蜂窝覆盖范围。为了提高D2D的覆盖范围和可靠性，我们考虑了先进的中继技术。我们使用中继节点研究多跳的D2D通信，即，我们研究在连接D2D Tx和Rx时发挥中继作用的空闲设备的利用率。这种中继技术可以使用网络编码(NC)来实现，以在网络中提供额外的冗余。在蒙特卡罗模拟的帮助下，我们通过比较使用和不使用NC实现的D2D底层蜂窝网络的求和速率来研究网络性能。结果表明，物理网络编码协议优于传统路由方案，而数字网络编码协议介于两者之间，从而提供了一个很好的折衷方案。结果表明，在考虑最佳情况的情况下，继电选择可以显著提高系统性能。

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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2014 1st International Workshop on Cognitive Cellular Systems (CCS)

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