Semi-kinematic geodetic reference frame based on the ITRF2014 for Malaysia

Malaysia is located at the stable part of the tec-tonic Sundaland platelet in SE Asia. The platelet is surrounded in almost every direction by tectonically active convergent boundaries, at which the Philippine Sea, the Australian and the Indian Plates are subducting respectively from the East, South...

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Published in:Journal of Geodetic Science
Main Author: Azhari M.; Altamimi Z.; Azman G.; Kadir M.; Simons W.J.F.; Sohaime R.; Yunus M.Y.; Irwan M.J.; Asyran C.A.; Soeb N.; Fahmi A.; Saiful A.
Format: Article
Language:English
Published: De Gruyter Open Ltd 2020
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85099134304&doi=10.1515%2fjogs-2020-0108&partnerID=40&md5=97ecd1a3c7adc7a4a546a4140fb39f8d
id 2-s2.0-85099134304
spelling 2-s2.0-85099134304
Azhari M.; Altamimi Z.; Azman G.; Kadir M.; Simons W.J.F.; Sohaime R.; Yunus M.Y.; Irwan M.J.; Asyran C.A.; Soeb N.; Fahmi A.; Saiful A.
Semi-kinematic geodetic reference frame based on the ITRF2014 for Malaysia
2020
Journal of Geodetic Science
10
1
10.1515/jogs-2020-0108
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85099134304&doi=10.1515%2fjogs-2020-0108&partnerID=40&md5=97ecd1a3c7adc7a4a546a4140fb39f8d
Malaysia is located at the stable part of the tec-tonic Sundaland platelet in SE Asia. The platelet is surrounded in almost every direction by tectonically active convergent boundaries, at which the Philippine Sea, the Australian and the Indian Plates are subducting respectively from the East, South and West.The current Malaysia geodetic reference frame called MGRF2000 is a static reference frame and hence did not incorporate the effects of plate motion and the ensuing deformation from (megath-rust) earthquakes. To prevent degradation of Continuously Operating Reference Station (CORS) coordinates, a new time-dependent national reference frame was developed. Taking advantage of the availability of the GNSS data of the CORS network in Malaysia, notably the Malaysia Active GPS System (MASS) and Malaysia Real-Time Kinematic GNSS Network (MyRTKnet), a more accurate and robust Malaysian geodetic reference frame was determined, fully aligned and compatible with ITRF2014. The cumulative solution obtained from stacking Malaysian CORS position time series formed the basis of the new MGRF2020 realization. It consists of 100+ station positions at epoch 2020.0, station velocities and Post-Seismic Deformation (PSD) parametric models for stations subjected to major earthquakes. The (1999-2018) position time series exhibit Weighted Mean Root Square (WRMS) values of 3.0, 3.2 and 7.6 mm in respectively the East, North and Vertical components. A new semi-kinematic geodetic datum (GDM2020) for Malaysia, useable for GIS, mapping and cadastre applications is proposed to replace the existing static datum (GDM2000). A transformation suite to convert the spatial databases from GDM2000 to GDM2020 was also developed. © 2020 M. Azhari et al., published by De Gruyter 2020.
De Gruyter Open Ltd
20819943
English
Article
All Open Access; Gold Open Access
author Azhari M.; Altamimi Z.; Azman G.; Kadir M.; Simons W.J.F.; Sohaime R.; Yunus M.Y.; Irwan M.J.; Asyran C.A.; Soeb N.; Fahmi A.; Saiful A.
spellingShingle Azhari M.; Altamimi Z.; Azman G.; Kadir M.; Simons W.J.F.; Sohaime R.; Yunus M.Y.; Irwan M.J.; Asyran C.A.; Soeb N.; Fahmi A.; Saiful A.
Semi-kinematic geodetic reference frame based on the ITRF2014 for Malaysia
author_facet Azhari M.; Altamimi Z.; Azman G.; Kadir M.; Simons W.J.F.; Sohaime R.; Yunus M.Y.; Irwan M.J.; Asyran C.A.; Soeb N.; Fahmi A.; Saiful A.
author_sort Azhari M.; Altamimi Z.; Azman G.; Kadir M.; Simons W.J.F.; Sohaime R.; Yunus M.Y.; Irwan M.J.; Asyran C.A.; Soeb N.; Fahmi A.; Saiful A.
title Semi-kinematic geodetic reference frame based on the ITRF2014 for Malaysia
title_short Semi-kinematic geodetic reference frame based on the ITRF2014 for Malaysia
title_full Semi-kinematic geodetic reference frame based on the ITRF2014 for Malaysia
title_fullStr Semi-kinematic geodetic reference frame based on the ITRF2014 for Malaysia
title_full_unstemmed Semi-kinematic geodetic reference frame based on the ITRF2014 for Malaysia
title_sort Semi-kinematic geodetic reference frame based on the ITRF2014 for Malaysia
publishDate 2020
container_title Journal of Geodetic Science
container_volume 10
container_issue 1
doi_str_mv 10.1515/jogs-2020-0108
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85099134304&doi=10.1515%2fjogs-2020-0108&partnerID=40&md5=97ecd1a3c7adc7a4a546a4140fb39f8d
description Malaysia is located at the stable part of the tec-tonic Sundaland platelet in SE Asia. The platelet is surrounded in almost every direction by tectonically active convergent boundaries, at which the Philippine Sea, the Australian and the Indian Plates are subducting respectively from the East, South and West.The current Malaysia geodetic reference frame called MGRF2000 is a static reference frame and hence did not incorporate the effects of plate motion and the ensuing deformation from (megath-rust) earthquakes. To prevent degradation of Continuously Operating Reference Station (CORS) coordinates, a new time-dependent national reference frame was developed. Taking advantage of the availability of the GNSS data of the CORS network in Malaysia, notably the Malaysia Active GPS System (MASS) and Malaysia Real-Time Kinematic GNSS Network (MyRTKnet), a more accurate and robust Malaysian geodetic reference frame was determined, fully aligned and compatible with ITRF2014. The cumulative solution obtained from stacking Malaysian CORS position time series formed the basis of the new MGRF2020 realization. It consists of 100+ station positions at epoch 2020.0, station velocities and Post-Seismic Deformation (PSD) parametric models for stations subjected to major earthquakes. The (1999-2018) position time series exhibit Weighted Mean Root Square (WRMS) values of 3.0, 3.2 and 7.6 mm in respectively the East, North and Vertical components. A new semi-kinematic geodetic datum (GDM2020) for Malaysia, useable for GIS, mapping and cadastre applications is proposed to replace the existing static datum (GDM2000). A transformation suite to convert the spatial databases from GDM2000 to GDM2020 was also developed. © 2020 M. Azhari et al., published by De Gruyter 2020.
publisher De Gruyter Open Ltd
issn 20819943
language English
format Article
accesstype All Open Access; Gold Open Access
record_format scopus
collection Scopus
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