Analysis of Wi-Fi coverage in light rail train using parallel higher order method of moments

Analysis of Wi-Fi coverage in light rail train using parallel higher order method of moments

Full wave simulations of light rail transit cabin with 2.4 GHz Wi-Fi antennas are performed to analyze the signal quality inside the cabin from different access point antenna configurations by using electric field distribution analysis. Since the vehicle is electrically large with a size of 92λ, met...

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Hauptverfasser: Chi-Hou Chio, Sio-Weng Ting, Xunwang Zhao, Sarkar, T. K., Yu Zhang, Kam-Weng Tam
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Antenna radiation patterns
Computational modeling
Directional antennas
Directive antennas
electrically large simulation
higher-order basis functions
IEEE 802.11 Standards
light rail transit
MoM
parallel computation
Vehicles
Wi-Fi
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Sio-Weng Ting
Xunwang Zhao
Sarkar, T. K.
Yu Zhang
Kam-Weng Tam
description Full wave simulations of light rail transit cabin with 2.4 GHz Wi-Fi antennas are performed to analyze the signal quality inside the cabin from different access point antenna configurations by using electric field distribution analysis. Since the vehicle is electrically large with a size of 92λ, method of moments with higher-order basis functions and parallel computation is used for accurate and efficient computation. Two types of antennas are used and compared, including an omni-directional monopole antenna and a directional suspended plate antenna. The results of the simulations are analyzed and it is shown that the directional antenna can provide a more homogeneous field distribution.
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subjects Antenna radiation patterns
Computational modeling
Directional antennas
Directive antennas
electrically large simulation
higher-order basis functions
IEEE 802.11 Standards
light rail transit
MoM
parallel computation
Vehicles
Wi-Fi
title Analysis of Wi-Fi coverage in light rail train using parallel higher order method of moments
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