Optimum Combinations of GGM and GDEM Models for Precise National Geoid Modelling

Optimum Combinations of GGM and GDEM Models for Precise National Geoid Modelling

This study aims to develop a Local Geoid Model (LGM) for Egypt to determine the optimal combinations of global models with Global Navigation Satellite Systems (GNSS/Levelling) data. A precise national geodetic dataset, four Global Geopotential Models (GGMs), and three global Digital Elevation Models...

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Veröffentlicht in:Proceedings of engineering and technology innovation Online 2021-04, Vol.18, p.15
Hauptverfasser: Essam Mohamed Al-Karargy, Gomaa Mohamed Dawod
Format: Artikel
Sprache:eng
Schlagworte:
Collocation methods
Digital Elevation Models
Earth gravitation
Geoids
Geopotential
Global navigation satellite system
Gravimetry
Gravitational fields
Leveling
Model accuracy
Navigation satellites
Optimization
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Zusammenfassung:This study aims to develop a Local Geoid Model (LGM) for Egypt to determine the optimal combinations of global models with Global Navigation Satellite Systems (GNSS/Levelling) data. A precise national geodetic dataset, four Global Geopotential Models (GGMs), and three global Digital Elevation Models (DEMs) have been utilized. Hence, twelve gravimetric LGMs have been developed using the Least-Square Collocation (LSC) method fitted to GNSS/Levelling data and judged over 100 checkpoints. Results revealed that improvements in local geoid accuracy are attributed mainly to GGMs models representing the long wavelength of the Earth's gravitational field. Regarding DEMs, the accuracy of LGMs does not significantly depend on the utilized DEM. Based on the available data, the attained optimum geoid of Egypt has been developed with a standard deviation, equals 0.129 m.
ISSN:2413-7146
2518-833X
DOI:10.46604/peti.2021.6452