Cob, Sanusi and Kadir, Majid and Forsberg, Rene and Simons, Wim and Naeije, Marc and Din, Ami Hassan and Yacob, Husaini and Amat, Asyran and Mahdzur, Daud and Ibrahim, Zuhairy and Aziz, Kenidi and Yaacob, Norehan and Johann, Felix and Jensen, Tim and Teitsson, Hergeir and Ses, Shahrum and Yahaya, Anim and Nordin, Soeb and Majid, Fadhil (2022) Epoch-based height reference system for sea level rise impact assessment on the coast of peninsular Malaysia. Remote Sensing, 14 (23). pp. 1-34. ISSN 2072-4292
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Official URL: http://dx.doi.org/10.3390/rs14236179
Abstract
The Peninsular Malaysia Geodetic Vertical Datum 2000 (PMGVD2000) inherited several deficiencies due to offsets between local datums used, levelling error propagations, land subsidence, sea level rise, and sea level slopes along the southern half of the Malacca Strait on the west coast and the South China Sea in the east coast of the Peninsular relative to the Port Klang (PTK) datum point. To cater for a more reliable elevation-based assessment of both sea level rise and coastal flooding exposure, a new epoch-based height reference system PMGVD2022 has been developed. We have undertaken the processing of more than 30 years of sea level data from twelve tide gauge (TG) stations along the Peninsular Malaysia coast for the determination of the relative mean sea level (RMSL) at epoch 2022.0 with their respective trends and incorporates the quantification of the local vertical land motion (VLM) impact. PMGVD2022 is based on a new gravimetric geoid (PMGeoid2022) fitted to the RMSL at PTK. The orthometric height is realised through the GNSS levelling concept H = hGNSS–Nfit_PTK–NRMDT, where NRMDT is a constant offset due to the relative mean dynamic ocean topography (RMDT) between the fitted geoid at PTK and the local MSL datums along the Peninsular Malaysia coast. PMGVD2022 will become a single height reference system with absolute accuracies of better than ±3 cm and ±10 cm across most of the land/coastal area and the continental shelf of Peninsular Malaysia, respectively.
Item Type: | Article |
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Uncontrolled Keywords: | airborne geoid mapping, epoch-based vertical datum, mean dynamic ocean topography, mean sea level rise, vertical land motion |
Subjects: | G Geography. Anthropology. Recreation > G Geography (General) G Geography. Anthropology. Recreation > G Geography (General) > G70.39-70.6 Remote sensing |
Divisions: | Built Environment |
ID Code: | 103914 |
Deposited By: | Yanti Mohd Shah |
Deposited On: | 06 Dec 2023 04:43 |
Last Modified: | 06 Dec 2023 04:43 |
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