Geometry-Based Stochastic Modeling for Non-Stationary High-Speed Train MIMO Channels

Junhui Zhao, Shangyao Wang, X. Liu, Yi Gong
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引用次数: 6

Abstract

In this paper, a non-stationary geometry-based stochastic model (GBSM) for high-speed train (HST) MIMO channels is proposed. The proposed model employs geometry-based elliptical scattering model, where the received signal is a superposition of line-of-sight (LOS) and single- bounced rays. The time-varying reference system is introduced to more accurately characterize the non-stationarity of HST MIMO channels caused by the high speed factor. Based on the proposed model, the 2D space cross- correlation function (CCF) and the temporal autocorrelation function (ACF) are derived, simulated under both of isotropic and non-isotropic scattering conditions, and discussed in detail.
基于几何的高速列车非平稳MIMO信道随机建模
提出了一种高速列车MIMO信道的非平稳几何随机模型(GBSM)。该模型采用基于几何的椭圆散射模型,其中接收到的信号是视距(LOS)和单次反射射线的叠加。引入时变参考系统,更准确地表征高速因素引起的HST MIMO信道的非平稳性。在此基础上,推导了二维空间互相关函数(CCF)和时间自相关函数(ACF),并对各向同性和非各向同性散射条件下的二维空间互相关函数(CCF)和时间自相关函数(ACF)进行了仿真,进行了详细的讨论。
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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