Diffuse Scattering Directive Model Parameterization Method for Construction Materials at mmWave Frequencies

Diffuse Scattering Directive Model Parameterization Method for Construction Materials at mmWave Frequencies

The determination for diffuse scattering model parameters is of critical importance to improve the accuracy of prediction and analysis for millimeter-wave radio propagation. In this paper, a reliable parameterization method with a simplified tuning procedure for a diffuse scattering model is propose...

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Main Authors: Ming-Hao Ren, Xi Liao, Jihua Zhou, Yang Wang, Yu Shao, Shasha Liao, Jie Zhang
Format: Article
Language:English
Published: Hindawi Limited 2020-01-01
Series:International Journal of Antennas and Propagation
Online Access:http://dx.doi.org/10.1155/2020/1583854
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spelling doaj-9e09157f64594b879f0320501d9b50162021-01-04T00:00:49ZengHindawi LimitedInternational Journal of Antennas and Propagation1687-58772020-01-01202010.1155/2020/1583854Diffuse Scattering Directive Model Parameterization Method for Construction Materials at mmWave FrequenciesMing-Hao Ren0Xi Liao1Jihua Zhou2Yang Wang3Yu Shao4Shasha Liao5Jie Zhang6Chongqing Key Laboratory of Mobile Communications TechnologyChongqing Key Laboratory of Mobile Communications TechnologyChongqing Jinmei Communication Co., Ltd.Chongqing Key Laboratory of Mobile Communications TechnologyChongqing Key Laboratory of Mobile Communications TechnologyChongqing Key Laboratory of Mobile Communications TechnologyDepartment of Electronic and Electrical EngineeringThe determination for diffuse scattering model parameters is of critical importance to improve the accuracy of prediction and analysis for millimeter-wave radio propagation. In this paper, a reliable parameterization method with a simplified tuning procedure for a diffuse scattering model is proposed and validated based on measurements and ray-tracing simulations. Typical construction materials are measured from 40 GHz to 50 GHz, and the complex permittivity is estimated by the propagation coefficients match method. The directive model, which can better characterize the scattering patterns of construction materials in this paper, is adopted to calibrate the ray-tracing simulation. Model parameterization is performed and simulated results with the optimal model parameters show distinct accuracy improvement.http://dx.doi.org/10.1155/2020/1583854
collection DOAJ
language English
format Article
sources DOAJ
author Ming-Hao Ren
Xi Liao
Jihua Zhou
Yang Wang
Yu Shao
Shasha Liao
Jie Zhang
spellingShingle Ming-Hao Ren
Xi Liao
Jihua Zhou
Yang Wang
Yu Shao
Shasha Liao
Jie Zhang
Diffuse Scattering Directive Model Parameterization Method for Construction Materials at mmWave Frequencies
International Journal of Antennas and Propagation
author_facet Ming-Hao Ren
Xi Liao
Jihua Zhou
Yang Wang
Yu Shao
Shasha Liao
Jie Zhang
author_sort Ming-Hao Ren
title Diffuse Scattering Directive Model Parameterization Method for Construction Materials at mmWave Frequencies
title_short Diffuse Scattering Directive Model Parameterization Method for Construction Materials at mmWave Frequencies
title_full Diffuse Scattering Directive Model Parameterization Method for Construction Materials at mmWave Frequencies
title_fullStr Diffuse Scattering Directive Model Parameterization Method for Construction Materials at mmWave Frequencies
title_full_unstemmed Diffuse Scattering Directive Model Parameterization Method for Construction Materials at mmWave Frequencies
title_sort diffuse scattering directive model parameterization method for construction materials at mmwave frequencies
publisher Hindawi Limited
series International Journal of Antennas and Propagation
issn 1687-5877
publishDate 2020-01-01
description The determination for diffuse scattering model parameters is of critical importance to improve the accuracy of prediction and analysis for millimeter-wave radio propagation. In this paper, a reliable parameterization method with a simplified tuning procedure for a diffuse scattering model is proposed and validated based on measurements and ray-tracing simulations. Typical construction materials are measured from 40 GHz to 50 GHz, and the complex permittivity is estimated by the propagation coefficients match method. The directive model, which can better characterize the scattering patterns of construction materials in this paper, is adopted to calibrate the ray-tracing simulation. Model parameterization is performed and simulated results with the optimal model parameters show distinct accuracy improvement.
url http://dx.doi.org/10.1155/2020/1583854
work_keys_str_mv AT minghaoren diffusescatteringdirectivemodelparameterizationmethodforconstructionmaterialsatmmwavefrequencies
AT xiliao diffusescatteringdirectivemodelparameterizationmethodforconstructionmaterialsatmmwavefrequencies
AT jihuazhou diffusescatteringdirectivemodelparameterizationmethodforconstructionmaterialsatmmwavefrequencies
AT yangwang diffusescatteringdirectivemodelparameterizationmethodforconstructionmaterialsatmmwavefrequencies
AT yushao diffusescatteringdirectivemodelparameterizationmethodforconstructionmaterialsatmmwavefrequencies
AT shashaliao diffusescatteringdirectivemodelparameterizationmethodforconstructionmaterialsatmmwavefrequencies
AT jiezhang diffusescatteringdirectivemodelparameterizationmethodforconstructionmaterialsatmmwavefrequencies
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