The modelling of tropical weather effects on ultra-high frequency (UHF) radio signals using SmartPLS
The interference occurs in radio signals transmission in many communication technologies are attributed to weather variations as well as other environmental factors. This work evaluates some atmospheric variables that have a dominating impact on temporal signal strength fluctuations. The Received...
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| Main Authors: | , , , , , |
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| Format: | Conference or Workshop Item |
| Language: | English |
| Published: |
2018
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| Subjects: | |
| Online Access: | http://eprints.unisza.edu.my/1600/1/FH03-ESERI-18-16516.pdf http://eprints.unisza.edu.my/1600/ |
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| Summary: | The interference occurs in radio signals transmission in many communication
technologies are attributed to weather variations as well as other environmental factors. This
work evaluates some atmospheric variables that have a dominating impact on temporal signal
strength fluctuations. The Received Power Level (RPL) of Ultra High Frequency (UHF)
communication signals (1800 MHz and 2160 MHz) and three tropical weather predictors
(humidity, temperature and wind) were collected using spectrum analyser (KEYSIGHT
N9915A) and weather station (Vantage Pro 2) respectively for 24 hours in rainy days. SmartPLS
3.2.6 was used to determine the strongest predictors influence the RPL for UHF frequency. It
has been found that changes in weather conditions have affected the signal in which all weather
predictors provide a significant relationship to the signal where R2
(coefficient of determination)
value is 0.314 for frequency 1800 MHz and 0.254 for frequency 2160 MHz. The findings also
show that humidity, temperature and wind are anticorrelations to RPL. However, humidity is
found to be the strongest predictor influences the RPL of communication signals for frequency
1800 MHz (β= -0.449, p=0.000). This model may benefit many sectors such as
telecommunication service provider, radio and TV transmission, radio astronomy study,
Electromagnetic (EM) researcher and satellite broadcasting. |
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