Accuracy Assessment of High-Degree Geopotential Models in Peninsular Malaysia

The selection of the accurate geoid model is essential for geoid determination in specific regions. Many improvements to the basic theory of more reliable data are available for numerical modelling studies. All of the innovations have led to the development of a sequence of global geopotential model...

Full description

Bibliographic Details
Published in:ASM Science Journal
Main Author: Ariff N.S.E.; Olesen A.K.; Mahdzur M.D.; Sulaiman S.A.H.
Format: Article
Language:English
Published: Akademi Sains Malaysia 2023
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85184165982&doi=10.32802%2fASMSCJ.2023.1018&partnerID=40&md5=58839772d3ebea646aad3fb7088cedf3
id 2-s2.0-85184165982
spelling 2-s2.0-85184165982
Ariff N.S.E.; Olesen A.K.; Mahdzur M.D.; Sulaiman S.A.H.
Accuracy Assessment of High-Degree Geopotential Models in Peninsular Malaysia
2023
ASM Science Journal
18

10.32802/ASMSCJ.2023.1018
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85184165982&doi=10.32802%2fASMSCJ.2023.1018&partnerID=40&md5=58839772d3ebea646aad3fb7088cedf3
The selection of the accurate geoid model is essential for geoid determination in specific regions. Many improvements to the basic theory of more reliable data are available for numerical modelling studies. All of the innovations have led to the development of a sequence of global geopotential models of increasing spherical harmonic degree and order and the resolution of the geopotential models. There are hundreds of geopotential models that can be downloaded in ICGEM. All geopotential ICGEM models have accuracy and resolution based on the degree and order of spherical harmonic coefficients. This study has two high-degree geopotential models: the latest one, XGM2019e_2159, and another geopotential model, EGM2008. The accuracy evaluation of two geopotential models needs to be evaluated based on terrestrial gravity data and existing GPS points data to choose which geopotential model is the best-fit geopotential models with different degrees and order in terms of spherical harmonic coefficients using the Root Mean Square method. The statistical analysis of the geopotential model derived based on the existing GPS points shows that the degree and order 720 for XGM2019e_2019 are the best-fit geopotential models in Peninsular Malaysia. The result also indicates that the gravity anomaly derived from EGM2008 with the maximum degree and order of 2190 regarding the spherical harmonic coefficient is the most accurate geoid model that can be used as a reference over Peninsular Malaysia. Overall, it can be concluded that XGM2019e_2019 and EGM2008 are the best-fit geopotential models for Peninsular Malaysia. © (2023), (Akademi Sains Malaysia). All Rights Reserved.
Akademi Sains Malaysia
18236782
English
Article
All Open Access; Gold Open Access
author Ariff N.S.E.; Olesen A.K.; Mahdzur M.D.; Sulaiman S.A.H.
spellingShingle Ariff N.S.E.; Olesen A.K.; Mahdzur M.D.; Sulaiman S.A.H.
Accuracy Assessment of High-Degree Geopotential Models in Peninsular Malaysia
author_facet Ariff N.S.E.; Olesen A.K.; Mahdzur M.D.; Sulaiman S.A.H.
author_sort Ariff N.S.E.; Olesen A.K.; Mahdzur M.D.; Sulaiman S.A.H.
title Accuracy Assessment of High-Degree Geopotential Models in Peninsular Malaysia
title_short Accuracy Assessment of High-Degree Geopotential Models in Peninsular Malaysia
title_full Accuracy Assessment of High-Degree Geopotential Models in Peninsular Malaysia
title_fullStr Accuracy Assessment of High-Degree Geopotential Models in Peninsular Malaysia
title_full_unstemmed Accuracy Assessment of High-Degree Geopotential Models in Peninsular Malaysia
title_sort Accuracy Assessment of High-Degree Geopotential Models in Peninsular Malaysia
publishDate 2023
container_title ASM Science Journal
container_volume 18
container_issue
doi_str_mv 10.32802/ASMSCJ.2023.1018
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85184165982&doi=10.32802%2fASMSCJ.2023.1018&partnerID=40&md5=58839772d3ebea646aad3fb7088cedf3
description The selection of the accurate geoid model is essential for geoid determination in specific regions. Many improvements to the basic theory of more reliable data are available for numerical modelling studies. All of the innovations have led to the development of a sequence of global geopotential models of increasing spherical harmonic degree and order and the resolution of the geopotential models. There are hundreds of geopotential models that can be downloaded in ICGEM. All geopotential ICGEM models have accuracy and resolution based on the degree and order of spherical harmonic coefficients. This study has two high-degree geopotential models: the latest one, XGM2019e_2159, and another geopotential model, EGM2008. The accuracy evaluation of two geopotential models needs to be evaluated based on terrestrial gravity data and existing GPS points data to choose which geopotential model is the best-fit geopotential models with different degrees and order in terms of spherical harmonic coefficients using the Root Mean Square method. The statistical analysis of the geopotential model derived based on the existing GPS points shows that the degree and order 720 for XGM2019e_2019 are the best-fit geopotential models in Peninsular Malaysia. The result also indicates that the gravity anomaly derived from EGM2008 with the maximum degree and order of 2190 regarding the spherical harmonic coefficient is the most accurate geoid model that can be used as a reference over Peninsular Malaysia. Overall, it can be concluded that XGM2019e_2019 and EGM2008 are the best-fit geopotential models for Peninsular Malaysia. © (2023), (Akademi Sains Malaysia). All Rights Reserved.
publisher Akademi Sains Malaysia
issn 18236782
language English
format Article
accesstype All Open Access; Gold Open Access
record_format scopus
collection Scopus
_version_ 1809678157141245952