Interpolation and mapping of the total electron content over the Malaysian region

Interpolation and mapping of the total electron content over the Malaysian region

In the vast areas of satellite-related applications, the ionosphere is the main cause of error due to the Total Electron Content (TEC), which causes the ionospheric delay. As a result, estimating and mapping the TEC is vital for the application of various satellite-related fields, which are gaining...

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Main Author: Lim, Wen Hong
Format: Thesis
Language:English
Published: 2008
Subjects:
T Technology (General)
Online Access:http://eprints.utm.my/id/eprint/10049/1/LimWenHongMFKSG2008.pdf
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spelling my-utm-ep.100492018-07-04T11:47:43Z Interpolation and mapping of the total electron content over the Malaysian region 2008-11 Lim, Wen Hong T Technology (General) In the vast areas of satellite-related applications, the ionosphere is the main cause of error due to the Total Electron Content (TEC), which causes the ionospheric delay. As a result, estimating and mapping the TEC is vital for the application of various satellite-related fields, which are gaining momentum in Malaysia. Thus, this study aims to develop an efficient approach in mapping the TEC over Malaysian region using interpolation method. The TEC was mapped using three interpolation methods, namely inverse distance weighting (IDW), multiquadric and sphere multiquadric for different size of study area, different distribution and quantity of reference points. All the results from these three methods were compared with the TEC derived from IRI-2001 model and calculated for the root mean square (RMS) values. This study found that the effects of the quantity and distribution of reference points were conspicuous in the results obtained via both multiquadric and sphere multiquadric methods, whereas IDW was not conspicuously affected by both factors. This can be seen from the RMS values obtained from the IDW for both the well-distributed and randomly distributed two reference points were 3.1894 and 6.1681, whereas for the 18 reference points, the RMS yielded were 2.2436 and 2.5748 respectively. Furthermore, the results, especially via the multiquadric and IDW methods were more accurate in smaller study area’s size, where the RMS yielded were 0.4685 and 0.0649 respectively for the 1º x 1º area size. However, IDW seemed to consistently generate the more accurate result for all the study area size, where the RMS generated for all the area sizes studied ranges from 0.0649 to 1.2178. As a conclusion, the IDW method is the most suitable interpolation for the Malaysian region. 2008-11 Thesis http://eprints.utm.my/id/eprint/10049/ http://eprints.utm.my/id/eprint/10049/1/LimWenHongMFKSG2008.pdf application/pdf en public masters Universiti Teknologi Malaysia, Faculty of Geoinformation Science and Engineering Faculty of Geoinformation Science and Engineering
institution Universiti Teknologi Malaysia
collection UTM Institutional Repository
language English
topic T Technology (General)
spellingShingle T Technology (General)
Lim, Wen Hong
Interpolation and mapping of the total electron content over the Malaysian region
description In the vast areas of satellite-related applications, the ionosphere is the main cause of error due to the Total Electron Content (TEC), which causes the ionospheric delay. As a result, estimating and mapping the TEC is vital for the application of various satellite-related fields, which are gaining momentum in Malaysia. Thus, this study aims to develop an efficient approach in mapping the TEC over Malaysian region using interpolation method. The TEC was mapped using three interpolation methods, namely inverse distance weighting (IDW), multiquadric and sphere multiquadric for different size of study area, different distribution and quantity of reference points. All the results from these three methods were compared with the TEC derived from IRI-2001 model and calculated for the root mean square (RMS) values. This study found that the effects of the quantity and distribution of reference points were conspicuous in the results obtained via both multiquadric and sphere multiquadric methods, whereas IDW was not conspicuously affected by both factors. This can be seen from the RMS values obtained from the IDW for both the well-distributed and randomly distributed two reference points were 3.1894 and 6.1681, whereas for the 18 reference points, the RMS yielded were 2.2436 and 2.5748 respectively. Furthermore, the results, especially via the multiquadric and IDW methods were more accurate in smaller study area’s size, where the RMS yielded were 0.4685 and 0.0649 respectively for the 1º x 1º area size. However, IDW seemed to consistently generate the more accurate result for all the study area size, where the RMS generated for all the area sizes studied ranges from 0.0649 to 1.2178. As a conclusion, the IDW method is the most suitable interpolation for the Malaysian region.
format Thesis
qualification_level Master's degree
author Lim, Wen Hong
author_facet Lim, Wen Hong
author_sort Lim, Wen Hong
title Interpolation and mapping of the total electron content over the Malaysian region
title_short Interpolation and mapping of the total electron content over the Malaysian region
title_full Interpolation and mapping of the total electron content over the Malaysian region
title_fullStr Interpolation and mapping of the total electron content over the Malaysian region
title_full_unstemmed Interpolation and mapping of the total electron content over the Malaysian region
title_sort interpolation and mapping of the total electron content over the malaysian region
granting_institution Universiti Teknologi Malaysia, Faculty of Geoinformation Science and Engineering
granting_department Faculty of Geoinformation Science and Engineering
publishDate 2008
url http://eprints.utm.my/id/eprint/10049/1/LimWenHongMFKSG2008.pdf
_version_ 1747814788633722880

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