考虑非恒定传播信道的处理5G信号定位数学模型

A. Tobie, A. G. Pena, P. Thevenon, Marion Aubault
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引用次数: 1

摘要

本文的目的是确定即将到来的第五代(5G)信号的测距性能。为此,需要定义5G相关器输出的数学模型。5G系统将使用OFDM(正交频分复用)信号;在文献中,建立了OFDM信号在不同接收信号处理阶段的数学模型。这些模型假设在OFDM符号上的传播信道是恒定的;然而,对符合5G标准的传播信道模拟器QuaDRiGa的深入研究推翻了这一假设。因此,本文建立了考虑渠道演变的数学模型。重点研究了相关器输出,并将结果应用于基于5G的伪距离精度计算。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Processed 5G Signals Mathematical Models for Positioning Considering a Non-Constant Propagation Channel
The objective of this paper is to determine the ranging performance of the upcoming fifth generation (5G) signal. In order to do so, it is required to define 5G correlator outputs mathematical models. 5G systems will use OFDM (Orthogonal Frequency Division Multiplexing) signals; in the literature, mathematical models of OFDM signals are developed at the different receiver signal processing stages. These models assumed that the propagation channel is constant over an OFDM symbol; nevertheless, an in-depth study of QuaDRiGa, a 5G compliant propagation channel simulator, invalidates this hypothesis. Therefore, in this paper, mathematical models are developed that take into account the channel evolution. The focus is given on correlator outputs and results are applied to the computation of 5G based pseudo range accuracy.
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