GPS Signal Strength Due to Ionospheric Scintillation : Preliminary Models Over Sarawak
The renowned effect of space weather is fluctuation in the amplitude of the radio signal that propagates in the ionosphere especially in the equatorial region. This fluctuation is also referred to as scintillation that will intense, degrades the signal quality, reduce the information content, or c...
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my.unimas.ir.129942023-06-15T06:42:22Z http://ir.unimas.my/id/eprint/12994/ GPS Signal Strength Due to Ionospheric Scintillation : Preliminary Models Over Sarawak Bong, V.P. Wan Zainal Abidin, W.A. Abdullah, M. Kismet, Hong Ping Masri, T. Bahari, S.A. Abba, I. TK Electrical engineering. Electronics Nuclear engineering The renowned effect of space weather is fluctuation in the amplitude of the radio signal that propagates in the ionosphere especially in the equatorial region. This fluctuation is also referred to as scintillation that will intense, degrades the signal quality, reduce the information content, or cause failure of the signal reception. Space-based radio navigation systems such as the Global Positioning System (GPS) will provide us with a unique opportunity to characterize the ionospheric scintillation effect as the signals propagate from the satellites to the GPS receiver. Sarawak, which is located near to the equatorial region, has been selected for the aim of this research. By using amplitude scintillation data recorded by the GPS Ionospheric Scintillation & TEC Monitor (GISTM), ionospheric irregularities along the path was examined and related to the signal strength performance. Methods and procedures to study and analyze the amplitude scintillation data are presented. Furthermore, the amplitude scintillation parameter is related to signal-to-noise ratio (SNR) in order to model the GPS satellite signal strength in this region. The preliminary developed SNR empirical models are a function of amplitude scintillation from the reference station path to the satellites. These contribute to the knowledge of received satellite signals strength performance in terms of ionospheric amplitude scintillation. 2015 Proceeding PeerReviewed text en http://ir.unimas.my/id/eprint/12994/1/GPS%20Signal%20Strength%20Due%20to%20Ionospheric%20Scintillation%20%28abstract%29.pdf Bong, V.P. and Wan Zainal Abidin, W.A. and Abdullah, M. and Kismet, Hong Ping and Masri, T. and Bahari, S.A. and Abba, I. (2015) GPS Signal Strength Due to Ionospheric Scintillation : Preliminary Models Over Sarawak. In: International Conference on Space Science and Communication (IconSpace) 2015, 10-12 Aug. 2015, Langkawi. http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=7283749 |
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TK Electrical engineering. Electronics Nuclear engineering Bong, V.P. Wan Zainal Abidin, W.A. Abdullah, M. Kismet, Hong Ping Masri, T. Bahari, S.A. Abba, I. GPS Signal Strength Due to Ionospheric Scintillation : Preliminary Models Over Sarawak |
description |
The renowned effect of space weather is fluctuation in
the amplitude of the radio signal that propagates in the
ionosphere especially in the equatorial region. This fluctuation is also referred to as scintillation that will intense, degrades the signal quality, reduce the information content, or cause failure of the signal reception. Space-based radio navigation systems such as the Global Positioning System (GPS) will provide us with a
unique opportunity to characterize the ionospheric scintillation effect as the signals propagate from the satellites to the GPS receiver. Sarawak, which is located near to the equatorial region, has been selected for the aim of this research. By using amplitude scintillation data recorded by the GPS Ionospheric Scintillation
& TEC Monitor (GISTM), ionospheric irregularities along the
path was examined and related to the signal strength
performance. Methods and procedures to study and analyze the
amplitude scintillation data are presented. Furthermore, the
amplitude scintillation parameter is related to signal-to-noise ratio (SNR) in order to model the GPS satellite signal strength in this region. The preliminary developed SNR empirical models are a function of amplitude scintillation from the reference station path to the satellites. These contribute to the knowledge of received satellite signals strength performance in terms of ionospheric amplitude scintillation. |
format |
Proceeding |
author |
Bong, V.P. Wan Zainal Abidin, W.A. Abdullah, M. Kismet, Hong Ping Masri, T. Bahari, S.A. Abba, I. |
author_facet |
Bong, V.P. Wan Zainal Abidin, W.A. Abdullah, M. Kismet, Hong Ping Masri, T. Bahari, S.A. Abba, I. |
author_sort |
Bong, V.P. |
title |
GPS Signal Strength Due to Ionospheric Scintillation :
Preliminary Models Over Sarawak |
title_short |
GPS Signal Strength Due to Ionospheric Scintillation :
Preliminary Models Over Sarawak |
title_full |
GPS Signal Strength Due to Ionospheric Scintillation :
Preliminary Models Over Sarawak |
title_fullStr |
GPS Signal Strength Due to Ionospheric Scintillation :
Preliminary Models Over Sarawak |
title_full_unstemmed |
GPS Signal Strength Due to Ionospheric Scintillation :
Preliminary Models Over Sarawak |
title_sort |
gps signal strength due to ionospheric scintillation :
preliminary models over sarawak |
publishDate |
2015 |
url |
http://ir.unimas.my/id/eprint/12994/1/GPS%20Signal%20Strength%20Due%20to%20Ionospheric%20Scintillation%20%28abstract%29.pdf http://ir.unimas.my/id/eprint/12994/ http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=7283749 |
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1769847613329244160 |