毫米波通信中基于丢点的海量MIMO传播信道模型的性能估计

Rifat Hasan, M. Mowla, Nabila Hoque
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引用次数: 4

摘要

移动通信技术超越当前LTE-A的下一个重要步骤是5G无线技术。随着5G的快速发展,大规模MIMO创新通过促进波束成形技术成为5G网络最重要的进步之一。本文对60ghz超宽带免许可频谱下5G海量MIMO毫米波(mmWave)蜂窝通信的统计传播信道模型进行了仿真分析。该研究基于IR(脉冲响应)信道模型NYUSIM,这是NYUWireless开发的基于几何的信道建模工具。我们已经使用基于下降的模式来确定传播信道系数。我们通过考虑定向、全向功率延迟分布(pdp)和路径损耗来研究网络性能。分析传播信道是定义无线流链路在特定环境下的信道响应行为以达到5G预期的基础。
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Performance Estimation of Massive MIMO Drop-based Propagation Channel Model for mmWave Communication
The next major step in mobile communications technology beyond the current LTE-A is 5G wireless technologies. With the rapid progression of 5G, massive MIMO innovation has turned out to be one of the most significant advances in 5G networks by facilitating beamforming technology. In this paper, we have simulated and analyzed the statistical propagation channel model for 5G massive MIMO millimeter-wave (mmWave) cellular communication in the ultrawideband unlicensed spectrum of 60 GHz. This investigation is based on IR (impulse response) channel model named NYUSIM which is a geometrical based channel modeling tool developed by NYUWireless. We have used the drop based mode to determine the propagation channel coefficients. We investigated the network performance by considering the directional, omnidirectional power delay profiles (PDPs) and path loss. Analyzing the propagation channel is fundamental to define the actions of the channel response of the wireless stream link in the specific environment to reach the 5G expectations.
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