Euler pole parameter estimation of sunda plate from present-day GPS site velocities in Malaysia

Euler pole parameter estimation of sunda plate from present-day GPS site velocities in Malaysia

Malaysia is situated at Sunda plate that experience highly dynamic of earth's crust with frequent earthquake and volcano activities. The effect of plate motion causing the static-based geodetic reference frame in Malaysia is no longer relevant to support the centimeter level of Global Positioni...

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Main Authors: Ahmad Affandi, Muhammad Luqman, Wan Aris, Wan Anom, Md. Din, Ami Hassan, Omar, Abdullah Hisam
Format: Conference or Workshop Item
Language:English
Published: 2021
Subjects:
G109.5 Global Positioning System
Online Access:http://eprints.utm.my/id/eprint/94444/1/MuhammadLuqmanAhmad2021_EulerPoleParameterEstimationofSundaPlate.pdf
http://eprints.utm.my/id/eprint/94444/
http://dx.doi.org/10.1088/1755-1315/767/1/012016
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Institution: Universiti Teknologi Malaysia
Language: English
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spelling my.utm.944442022-03-31T15:39:39Z http://eprints.utm.my/id/eprint/94444/ Euler pole parameter estimation of sunda plate from present-day GPS site velocities in Malaysia Ahmad Affandi, Muhammad Luqman Wan Aris, Wan Anom Md. Din, Ami Hassan Omar, Abdullah Hisam G109.5 Global Positioning System Malaysia is situated at Sunda plate that experience highly dynamic of earth's crust with frequent earthquake and volcano activities. The effect of plate motion causing the static-based geodetic reference frame in Malaysia is no longer relevant to support the centimeter level of Global Positioning System (GPS) application. Therefore, an updated Sundaland plate motion model is necessary to cater to the effect thus preserving the reliability of the geodetic reference frame. This study aimed at determining regional plate motion of Sundaland in support of dynamic reference frame. The work involved in generating precise Position Errors Time Series (PETS) from GPS Continuous Operating Reference System (CORS) data in Malaysia and neighbouring country. The Coordinates Time Series (CTS) were then used to estimate velocity vector and the precision form the results depicted at -8.0429±3.0215mm, 3.873±3.288mm, and 0.913±7.775mm for component northing, easting and up, respectively. From the velocity vector, location of Euler pole of Sunda plate was found at latitude 5.8482 ° N and longitude -95.1017 ° E with estimated angular momentum of 0.201O/Myr± 0.0389. It can be expected that the result will be useful for maintaining the reliability of the reference frame in South East Malaysia. 2021 Conference or Workshop Item PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/94444/1/MuhammadLuqmanAhmad2021_EulerPoleParameterEstimationofSundaPlate.pdf Ahmad Affandi, Muhammad Luqman and Wan Aris, Wan Anom and Md. Din, Ami Hassan and Omar, Abdullah Hisam (2021) Euler pole parameter estimation of sunda plate from present-day GPS site velocities in Malaysia. In: 7th International Conference on Geomatics and Geospatial Technology, GGT 2021, 23 - 24 March 2021, Shah Alam, Virtual. http://dx.doi.org/10.1088/1755-1315/767/1/012016
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic G109.5 Global Positioning System
spellingShingle G109.5 Global Positioning System
Ahmad Affandi, Muhammad Luqman
Wan Aris, Wan Anom
Md. Din, Ami Hassan
Omar, Abdullah Hisam
Euler pole parameter estimation of sunda plate from present-day GPS site velocities in Malaysia
description Malaysia is situated at Sunda plate that experience highly dynamic of earth's crust with frequent earthquake and volcano activities. The effect of plate motion causing the static-based geodetic reference frame in Malaysia is no longer relevant to support the centimeter level of Global Positioning System (GPS) application. Therefore, an updated Sundaland plate motion model is necessary to cater to the effect thus preserving the reliability of the geodetic reference frame. This study aimed at determining regional plate motion of Sundaland in support of dynamic reference frame. The work involved in generating precise Position Errors Time Series (PETS) from GPS Continuous Operating Reference System (CORS) data in Malaysia and neighbouring country. The Coordinates Time Series (CTS) were then used to estimate velocity vector and the precision form the results depicted at -8.0429±3.0215mm, 3.873±3.288mm, and 0.913±7.775mm for component northing, easting and up, respectively. From the velocity vector, location of Euler pole of Sunda plate was found at latitude 5.8482 ° N and longitude -95.1017 ° E with estimated angular momentum of 0.201O/Myr± 0.0389. It can be expected that the result will be useful for maintaining the reliability of the reference frame in South East Malaysia.
format Conference or Workshop Item
author Ahmad Affandi, Muhammad Luqman
Wan Aris, Wan Anom
Md. Din, Ami Hassan
Omar, Abdullah Hisam
author_facet Ahmad Affandi, Muhammad Luqman
Wan Aris, Wan Anom
Md. Din, Ami Hassan
Omar, Abdullah Hisam
author_sort Ahmad Affandi, Muhammad Luqman
title Euler pole parameter estimation of sunda plate from present-day GPS site velocities in Malaysia
title_short Euler pole parameter estimation of sunda plate from present-day GPS site velocities in Malaysia
title_full Euler pole parameter estimation of sunda plate from present-day GPS site velocities in Malaysia
title_fullStr Euler pole parameter estimation of sunda plate from present-day GPS site velocities in Malaysia
title_full_unstemmed Euler pole parameter estimation of sunda plate from present-day GPS site velocities in Malaysia
title_sort euler pole parameter estimation of sunda plate from present-day gps site velocities in malaysia
publishDate 2021
url http://eprints.utm.my/id/eprint/94444/1/MuhammadLuqmanAhmad2021_EulerPoleParameterEstimationofSundaPlate.pdf
http://eprints.utm.my/id/eprint/94444/
http://dx.doi.org/10.1088/1755-1315/767/1/012016
_version_ 1729703173062393856

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