In this study, two methodologies are investigated for geoid determination from ground and airborne gravity data. These two methodologies depend on the downward continuation method used. The first is the inverse Poisson integral; the second is the normal free-air gradient. Each of the two methods requires different treatment of the terrain effects and in turn different approaches to determine the geoid. The two geoid solutions, from ground data, are compared with existing GPS/levelling benchmarks and it is found that the second method gives a better fit due to the bias introduced from the inverse Poisson integral. The same process was applied to the airborne data, but with additional processing, that is the filtering of the terrain effects t...
In the frame of the International Association of Geodesy Joint Working Group 2.2.2 “The 1 cm geoid e...
The treatment of gravity and terrain data prior to any gravimetric geoid computation is critical. I ...
Observations of gravity can be aliased by virtue of the logistics involved in collecting these data ...
Advances in the Global Positioning System (GPS) and strapdown Inertial Navigation System (INS) have ...
This paper studies the contribution of airborne gravity data to improvement of gravimetric geoid mod...
Before the computation of short-wavelength and long-wavelength components of the geoid undulations f...
Traditionally, geoid determination is applied by Stokes’ formula with gravity anomalies after ...
The treatment of gravity and terrain data prior to any gravimetric geoid computation is critical. I...
In this study, we compare six commonly used methods for the downward continuation of airborne gravit...
Gravimetric reduction schemes play an important role on precise geoid determination, especially in r...
The most popular technique for the reduction of gravity to the geoid is the Helmert´s condensation m...
Using GPS-levelling technique for height determination has been a very attractive method in recent y...
In regions where additional, spatially dense gravity and terrain information are available to augmen...
Gravity data gaps in mountainous areas are nowadays often filled in with the data from airborne grav...
Three different topographic reduction methods in geoid determination were investigated. The first me...
In the frame of the International Association of Geodesy Joint Working Group 2.2.2 “The 1 cm geoid e...
The treatment of gravity and terrain data prior to any gravimetric geoid computation is critical. I ...
Observations of gravity can be aliased by virtue of the logistics involved in collecting these data ...
Advances in the Global Positioning System (GPS) and strapdown Inertial Navigation System (INS) have ...
This paper studies the contribution of airborne gravity data to improvement of gravimetric geoid mod...
Before the computation of short-wavelength and long-wavelength components of the geoid undulations f...
Traditionally, geoid determination is applied by Stokes’ formula with gravity anomalies after ...
The treatment of gravity and terrain data prior to any gravimetric geoid computation is critical. I...
In this study, we compare six commonly used methods for the downward continuation of airborne gravit...
Gravimetric reduction schemes play an important role on precise geoid determination, especially in r...
The most popular technique for the reduction of gravity to the geoid is the Helmert´s condensation m...
Using GPS-levelling technique for height determination has been a very attractive method in recent y...
In regions where additional, spatially dense gravity and terrain information are available to augmen...
Gravity data gaps in mountainous areas are nowadays often filled in with the data from airborne grav...
Three different topographic reduction methods in geoid determination were investigated. The first me...
In the frame of the International Association of Geodesy Joint Working Group 2.2.2 “The 1 cm geoid e...
The treatment of gravity and terrain data prior to any gravimetric geoid computation is critical. I ...
Observations of gravity can be aliased by virtue of the logistics involved in collecting these data ...