Article
Open Access
The Uganda Gravimetric Geoid Model 2014 Computed by The KTH Method
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L. E. Sjöberg
Published/Copyright:
May 12, 2015
Received: 2015-1-19
Accepted: 2015-3-24
Published Online: 2015-5-12
© 2015 R. Ssengendo et al.
Articles in the same Issue
- Special issue: NKG General Assembly 2014
- The development of physical geodesy during 1984-2014 – A personal review
- Public road infrastructure inventory in degraded global navigation satellite system signal environments
- Observed secular gravity trend at Onsala station with the FG5 gravimeter from Hannover
- Experience from geodetic very long baseline interferometry observations at Onsala using a digital backend
- Simulation of GNSS reflected signals and estimation of position accuracy in GNSS-challenged environment
- The Uganda Gravimetric Geoid Model 2014 Computed by The KTH Method
- Optimisation of Lilla Edet Landslide GPS Monitoring Network
- High-frequency analysis of Earth gravity field models based on terrestrial gravity and GPS/levelling data: a case study in Greece
- Ocean tide, Baltic Sea and atmospheric loading model tilt comparisons with interferometric geodynamic tilt observation - case study at Lohja2 geodynamic station, southern Finland
- Regular Articles
- Preliminary geoid mapping results by Fugro’s improved Micro-g LaCoste turnkey airborne gravity system
- Estimating the variance in coordinate measuring for binary orbit
- Rigorous geoid-from-quasigeoid correction using gravity disturbances
- Noise behavior in CGPS position time series: the eastern North America case study
- GRACE-derived ice-mass loss spread over Greenland
- Extraction of geoid heights from shipborne GNSS measurements along the Weser River in northern Germany
- Comparison of precipitable water over Ghana using GPS signals and reanalysis products
- The topographic bias in Stokes’ formula vs. the error of analytical continuation by an Earth Gravitational Model - are they the same?
- An upwind-based scheme for solving the oblique derivative boundary-value problem related to physical geodesy
- On the gravity and geoid effects of glacial isostatic adjustment in Fennoscandia - a short note
- More confounders at global and decadal scales in detecting recent sea level accelerations
Creative Commons
BY-NC-ND 3.0
Articles in the same Issue
- Special issue: NKG General Assembly 2014
- The development of physical geodesy during 1984-2014 – A personal review
- Public road infrastructure inventory in degraded global navigation satellite system signal environments
- Observed secular gravity trend at Onsala station with the FG5 gravimeter from Hannover
- Experience from geodetic very long baseline interferometry observations at Onsala using a digital backend
- Simulation of GNSS reflected signals and estimation of position accuracy in GNSS-challenged environment
- The Uganda Gravimetric Geoid Model 2014 Computed by The KTH Method
- Optimisation of Lilla Edet Landslide GPS Monitoring Network
- High-frequency analysis of Earth gravity field models based on terrestrial gravity and GPS/levelling data: a case study in Greece
- Ocean tide, Baltic Sea and atmospheric loading model tilt comparisons with interferometric geodynamic tilt observation - case study at Lohja2 geodynamic station, southern Finland
- Regular Articles
- Preliminary geoid mapping results by Fugro’s improved Micro-g LaCoste turnkey airborne gravity system
- Estimating the variance in coordinate measuring for binary orbit
- Rigorous geoid-from-quasigeoid correction using gravity disturbances
- Noise behavior in CGPS position time series: the eastern North America case study
- GRACE-derived ice-mass loss spread over Greenland
- Extraction of geoid heights from shipborne GNSS measurements along the Weser River in northern Germany
- Comparison of precipitable water over Ghana using GPS signals and reanalysis products
- The topographic bias in Stokes’ formula vs. the error of analytical continuation by an Earth Gravitational Model - are they the same?
- An upwind-based scheme for solving the oblique derivative boundary-value problem related to physical geodesy
- On the gravity and geoid effects of glacial isostatic adjustment in Fennoscandia - a short note
- More confounders at global and decadal scales in detecting recent sea level accelerations
