Cooperative diversity performance of hybrid satellite and terrestrial millimeter wave backhaul 5G networks

2017 International Workshop on Antenna Technology: Small Antennas, Innovative Structures, and Applications (iWAT) Pub Date : 2017-03-01 DOI:10.1109/IWAT.2017.7915313

C. Kourogiorgas, A. Z. Papafragkakis, A. Panagopoulos, Vassileios K. Sakarellos

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引用次数: 11

Abstract

Cooperative diversity between satellite and terrestrial networks is an effective technique to increase the availability of satellite communications under fading conditions. The integration of satellite communications in 5th Generation mobile networks gives the advantage of a very high coverage area. However, the increased demand for bandwidth at backhaul links has led to the employment of millimeter wave frequencies, where the dominant fading mechanism is rain attenuation. In this paper, the end-to-end outage performance analysis of a satellite-terrestrial cooperative diversity system operating at frequencies above 10 GHz is presented, employing spatially correlated lognormal fading channels. The destination node (e.g. Base Station of 5G access network) combines the direct satellite link signal with a signal received through a terrestrial regenerative (decode-and-forward) relay using the Selection Combining technique. Extended numerical results present the impact of various operational, geometrical and geographical parameters on the system performance.

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卫星与地面混合毫米波回程5G网络的协同分集性能

卫星与地面网络的合作分集是在衰落条件下提高卫星通信可用性的一种有效技术。在第五代移动网络中，卫星通信的集成提供了一个非常高的覆盖面积的优势。然而，回程链路对带宽需求的增加导致了毫米波频率的使用，其中主要的衰落机制是雨衰减。本文研究了在10ghz以上频率下，采用空间相关对数正态衰落信道的星地合作分集系统端到端中断性能分析。目的节点(例如5G接入网基站)使用选择组合技术将直接卫星链路信号与通过地面再生(解码转发)中继接收的信号相结合。扩展的数值结果显示了各种操作、几何和地理参数对系统性能的影响。

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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2017 International Workshop on Antenna Technology: Small Antennas, Innovative Structures, and Applications (iWAT)

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