Numerical Modeling of the Radio Wave Over-the-Horizon Propagation in the Troposphere

Min Xu; Melad Olaimat; Tao Tang; Omar M. Ramahi; Maged Aldhaeebi; Zhu Jin; Ming Zhu

doi:10.3390/atmos13081184

Numerical Modeling of the Radio Wave Over-the-Horizon Propagation in the Troposphere

Min Xu, Melad Olaimat, Tao Tang, Omar M. Ramahi, Maged Aldhaeebi, Zhu Jin, Ming Zhu

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Using atmospheric data, which include pressure, temperature, relative humidity and water vapor pressure, the actual refractive index of a specific segment of the atmosphere has been modeled. Based on the refractive index, a numerical method is presented to quickly estimate the propagation path of the radio wave in the troposphere. Utilizing the terrain and the surface medium model of the propagation area and the parabolic equation (PE) method, an image of the electric field distribution of radio waves in the troposphere is obtained. A comparison of propagation paths between the numerical method and the PE model is presented. Additionally, the effects of the antenna’s elevation angle have been studied. Physical measurements provide a reference for the accuracy of the simulation results obtained using the method presented in this work.

Original language	English
Article number	1184
Journal	Atmosphere
Volume	13
Issue number	8
DOIs	https://doi.org/10.3390/atmos13081184
State	Published - Aug 2022
Externally published	Yes

Keywords

PE
attenuation
parabolic equation
propagation path
refractive index

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10.3390/atmos13081184

Cite this

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title = "Numerical Modeling of the Radio Wave Over-the-Horizon Propagation in the Troposphere",

abstract = "Using atmospheric data, which include pressure, temperature, relative humidity and water vapor pressure, the actual refractive index of a specific segment of the atmosphere has been modeled. Based on the refractive index, a numerical method is presented to quickly estimate the propagation path of the radio wave in the troposphere. Utilizing the terrain and the surface medium model of the propagation area and the parabolic equation (PE) method, an image of the electric field distribution of radio waves in the troposphere is obtained. A comparison of propagation paths between the numerical method and the PE model is presented. Additionally, the effects of the antenna{\textquoteright}s elevation angle have been studied. Physical measurements provide a reference for the accuracy of the simulation results obtained using the method presented in this work.",

keywords = "PE, attenuation, parabolic equation, propagation path, refractive index",

author = "Min Xu and Melad Olaimat and Tao Tang and Ramahi, \{Omar M.\} and Maged Aldhaeebi and Zhu Jin and Ming Zhu",

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month = aug,

doi = "10.3390/atmos13081184",

language = "English",

volume = "13",

journal = "Atmosphere",

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T1 - Numerical Modeling of the Radio Wave Over-the-Horizon Propagation in the Troposphere

AU - Xu, Min

AU - Olaimat, Melad

AU - Tang, Tao

AU - Ramahi, Omar M.

AU - Aldhaeebi, Maged

AU - Jin, Zhu

AU - Zhu, Ming

PY - 2022/8

Y1 - 2022/8

N2 - Using atmospheric data, which include pressure, temperature, relative humidity and water vapor pressure, the actual refractive index of a specific segment of the atmosphere has been modeled. Based on the refractive index, a numerical method is presented to quickly estimate the propagation path of the radio wave in the troposphere. Utilizing the terrain and the surface medium model of the propagation area and the parabolic equation (PE) method, an image of the electric field distribution of radio waves in the troposphere is obtained. A comparison of propagation paths between the numerical method and the PE model is presented. Additionally, the effects of the antenna’s elevation angle have been studied. Physical measurements provide a reference for the accuracy of the simulation results obtained using the method presented in this work.

AB - Using atmospheric data, which include pressure, temperature, relative humidity and water vapor pressure, the actual refractive index of a specific segment of the atmosphere has been modeled. Based on the refractive index, a numerical method is presented to quickly estimate the propagation path of the radio wave in the troposphere. Utilizing the terrain and the surface medium model of the propagation area and the parabolic equation (PE) method, an image of the electric field distribution of radio waves in the troposphere is obtained. A comparison of propagation paths between the numerical method and the PE model is presented. Additionally, the effects of the antenna’s elevation angle have been studied. Physical measurements provide a reference for the accuracy of the simulation results obtained using the method presented in this work.

KW - PE

KW - attenuation

KW - parabolic equation

KW - propagation path

KW - refractive index

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DO - 10.3390/atmos13081184

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VL - 13

JO - Atmosphere

JF - Atmosphere

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M1 - 1184

ER -

Numerical Modeling of the Radio Wave Over-the-Horizon Propagation in the Troposphere

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Keywords

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