Hybrid geoid modelling using tandemX DEM / Ahmad Hafizul Zariq Ahmad Halmi
This study was conducted in conjunction with development of Peninsular Malaysia hybrid geoid model using new method called Least Square Modification of Stoke’s formula with Additive Corrections (LSMSA) or simply KTH method. The model were develop using latest terrestrial with airborne gravity inform...
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2020
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my.uitm.ir.303292020-04-30T13:29:36Z http://ir.uitm.edu.my/id/eprint/30329/ Hybrid geoid modelling using tandemX DEM / Ahmad Hafizul Zariq Ahmad Halmi Ahmad Halmi, Ahmad Hafizul Zariq Aerial geography Geomatics This study was conducted in conjunction with development of Peninsular Malaysia hybrid geoid model using new method called Least Square Modification of Stoke’s formula with Additive Corrections (LSMSA) or simply KTH method. The model were develop using latest terrestrial with airborne gravity information provided by Department of Survey & Mapping Malaysia (DSMM), newly established digital elevation model TanDEMX90 GDEM, GOCO01S global geopotential model (GGM), marine gravity anomalies from DTU10 Global Gravity Field with additional ship-track gravity data and Earth’s gravity anomalies from WGM2012. Primary objective of this study is to assess how far the chosen GDEM could provide any difference towards geoid modelling computation. As for comparison purpose, another geoid model based on SRTM30 GDEM also being computed in this study. After that, the gravimetric geoid model developed will be fit to Malaysia NGVD surface to establish a hybrid geoid model of Peninsular Malaysia. Both models derived then being assessed with GNSS/Levelling data for geoid height comparison. For gravimetric geoid model, SRTM30-based model shown better RMSE than TanDEMX90-based model. SRTM30-based model achieves RMSE of 0.357m before fitting and 0.068m after fitting while TanDEMX90-based model reach RMSE of 0.356m before fitting and 0.074m after fitting. For hybrid geoid model, the difference occurs with TanDEMX90-based model shown slightly better result than SRTM30-based model with external RMSE of 0.070m and 0.077m, respectively. 2020-05-30 Thesis NonPeerReviewed text en http://ir.uitm.edu.my/id/eprint/30329/1/TD_AHMAD%20HAFIZUL%20ZARIQ%20AHMAD%20HALMI%20AP%20R%2019_5.pdf Ahmad Halmi, Ahmad Hafizul Zariq (2020) Hybrid geoid modelling using tandemX DEM / Ahmad Hafizul Zariq Ahmad Halmi. Degree thesis, Universiti Teknologi Mara Perlis. |
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Aerial geography Geomatics Ahmad Halmi, Ahmad Hafizul Zariq Hybrid geoid modelling using tandemX DEM / Ahmad Hafizul Zariq Ahmad Halmi |
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This study was conducted in conjunction with development of Peninsular Malaysia hybrid geoid model using new method called Least Square Modification of Stoke’s formula with Additive Corrections (LSMSA) or simply KTH method. The model were develop using latest terrestrial with airborne gravity information provided by Department of Survey & Mapping Malaysia (DSMM), newly established digital elevation model TanDEMX90 GDEM, GOCO01S global geopotential model (GGM), marine gravity anomalies from DTU10 Global Gravity Field with additional ship-track gravity data and Earth’s gravity anomalies from WGM2012. Primary objective of this study is to assess how far the chosen GDEM could provide any difference towards geoid modelling computation. As for comparison purpose, another geoid model based on SRTM30 GDEM also being computed in this study. After that, the gravimetric geoid model developed will be fit to Malaysia NGVD surface to establish a hybrid geoid model of Peninsular Malaysia. Both models derived then being assessed with GNSS/Levelling data for geoid height comparison. For gravimetric geoid model, SRTM30-based model shown better RMSE than TanDEMX90-based model. SRTM30-based model achieves RMSE of 0.357m before fitting and 0.068m after fitting while TanDEMX90-based model reach RMSE of 0.356m before fitting and 0.074m after fitting. For hybrid geoid model, the difference occurs with TanDEMX90-based model shown slightly better result than SRTM30-based model with external RMSE of 0.070m and 0.077m, respectively. |
| format |
Thesis |
| author |
Ahmad Halmi, Ahmad Hafizul Zariq |
| author_facet |
Ahmad Halmi, Ahmad Hafizul Zariq |
| author_sort |
Ahmad Halmi, Ahmad Hafizul Zariq |
| title |
Hybrid geoid modelling using tandemX DEM / Ahmad Hafizul Zariq Ahmad Halmi |
| title_short |
Hybrid geoid modelling using tandemX DEM / Ahmad Hafizul Zariq Ahmad Halmi |
| title_full |
Hybrid geoid modelling using tandemX DEM / Ahmad Hafizul Zariq Ahmad Halmi |
| title_fullStr |
Hybrid geoid modelling using tandemX DEM / Ahmad Hafizul Zariq Ahmad Halmi |
| title_full_unstemmed |
Hybrid geoid modelling using tandemX DEM / Ahmad Hafizul Zariq Ahmad Halmi |
| title_sort |
hybrid geoid modelling using tandemx dem / ahmad hafizul zariq ahmad halmi |
| publishDate |
2020 |
| url |
http://ir.uitm.edu.my/id/eprint/30329/1/TD_AHMAD%20HAFIZUL%20ZARIQ%20AHMAD%20HALMI%20AP%20R%2019_5.pdf http://ir.uitm.edu.my/id/eprint/30329/ |
| _version_ |
1685650640497278976 |
| score |
13.187197 |