隧道传播建模中基于有限差分和分步抛物方程方法的比较分析

IF 1.1 4区计算机科学 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Iet Microwaves Antennas & Propagation Pub Date : 2023-12-10 DOI:10.1049/mia2.12439

Hao Qin, Xingqi Zhang

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引用次数: 0

摘要

铁路环境中的无线电波传播建模对于设计可靠的列车通信系统至关重要。抛物方程（PE）方法因其计算效率高和保真度高而被广泛应用于隧道内的电波传播建模。有限差分抛物方程（FDPE）和分步抛物方程（SSPE）方法是两种常用的抛物方程数值求解方法。然而，相关文献仍缺少对其性能的全面研究，包括离散化步骤等参数的选择，以及在精度和效率方面的权衡，尤其是在当前无线系统向高频率转变的情况下。本研究系统分析了 FDPE 和 SSPE 方法在隧道无线电波传播建模中的误差和计算复杂性。本研究还提供了参数选择指南，并通过实际隧道案例中的数值示例和实验测量证明了这两种方法的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Comparative analysis of finite-difference and split-step based parabolic equation methods for tunnel propagation modelling

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Comparative analysis of finite-difference and split-step based parabolic equation methods for tunnel propagation modelling

Radio wave propagation modelling in railway environments is of fundamental importance in designing reliable train communication systems. Parabolic equation (PE) methods have been widely applied to the modelling of wave propagation in tunnels due to their high computational efficiency and fidelity. The finite-difference parabolic equation (FDPE) and the split-step parabolic equation (SSPE) methods are two commonly used approaches to solve PE numerically. However, the relevant literature is still missing a comprehensive study of their performance, including the selection of parameters such as discretisation steps and the tradeoffs involved in terms of their accuracy and efficiency, especially as current wireless systems shift to high frequencies. In this study, a systematic analysis of the error and computational complexity of the FDPE and SSPE methods for radio wave propagation modelling in tunnels is provided. Guidelines for the choice of their parameters are provided, and their performance is demonstrated through both numerical examples and experimental measurements in actual tunnel cases.

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来源期刊

Iet Microwaves Antennas & Propagation 工程技术-电信学

CiteScore

4.30

自引率

5.90%

发文量

109

审稿时长

7 months

期刊介绍： Topics include, but are not limited to: Microwave circuits including RF, microwave and millimetre-wave amplifiers, oscillators, switches, mixers and other components implemented in monolithic, hybrid, multi-chip module and other technologies. Papers on passive components may describe transmission-line and waveguide components, including filters, multiplexers, resonators, ferrite and garnet devices. For applications, papers can describe microwave sub-systems for use in communications, radar, aerospace, instrumentation, industrial and medical applications. Microwave linear and non-linear measurement techniques. Antenna topics including designed and prototyped antennas for operation at all frequencies; multiband antennas, antenna measurement techniques and systems, antenna analysis and design, aperture antenna arrays, adaptive antennas, printed and wire antennas, microstrip, reconfigurable, conformal and integrated antennas. Computational electromagnetics and synthesis of antenna structures including phased arrays and antenna design algorithms. Radiowave propagation at all frequencies and environments. Current Special Issue. Call for papers: Metrology for 5G Technologies - https://digital-library.theiet.org/files/IET_MAP_CFP_M5GT_SI2.pdf