<p>Slides for the oral presentation "Computation of the gravity gradient tensor due to topographic masses using tesseroids" given at the 2010 AGU Meeting of the Americas at Foz do Iguaçu, Brazil.</p
Forward modelling in the space domain is a very important task in geodesy and other geosciences. Fro...
Gravity gradients are an effective method for delineating the extent of subsurface density anomalies...
<p>Poster "Optimal forward calculation method of the Marussi tensor due to a geologic structure at G...
The GOCE satellite mission has the objective of measuring the Earth's gravitational field with an un...
We present an accurate method for the calculation of gravitational potential (GP), vector (GV), and ...
Based on the Tesseroids software, We offer the codes for modeling the gravitational curvatures of te...
During the last 20 years, geophysicists have developed great interest in using gravity gradient tens...
International audienceWe present a new analytical solution to compute the full-tensor gravity gradie...
High order, high precision geopotential models have broad application. Computing gravity and gravity...
A collection of command-line programs for modeling the gravitational potential, acceleration, and gr...
The new observations of GOCE present a challenge to develop new calculation methods that take into a...
Abstract In this paper, we propose an inverse method for full gravity gradient tensor data in the sp...
Gravity gradiometry measurement allows imaging of anomalous sources in more detail than conventional...
Summary. This paper introduces a new matrix computationai approach to the local determination of gra...
In this paper, three different methods for computing the terrain correction have been compared. The ...
Forward modelling in the space domain is a very important task in geodesy and other geosciences. Fro...
Gravity gradients are an effective method for delineating the extent of subsurface density anomalies...
<p>Poster "Optimal forward calculation method of the Marussi tensor due to a geologic structure at G...
The GOCE satellite mission has the objective of measuring the Earth's gravitational field with an un...
We present an accurate method for the calculation of gravitational potential (GP), vector (GV), and ...
Based on the Tesseroids software, We offer the codes for modeling the gravitational curvatures of te...
During the last 20 years, geophysicists have developed great interest in using gravity gradient tens...
International audienceWe present a new analytical solution to compute the full-tensor gravity gradie...
High order, high precision geopotential models have broad application. Computing gravity and gravity...
A collection of command-line programs for modeling the gravitational potential, acceleration, and gr...
The new observations of GOCE present a challenge to develop new calculation methods that take into a...
Abstract In this paper, we propose an inverse method for full gravity gradient tensor data in the sp...
Gravity gradiometry measurement allows imaging of anomalous sources in more detail than conventional...
Summary. This paper introduces a new matrix computationai approach to the local determination of gra...
In this paper, three different methods for computing the terrain correction have been compared. The ...
Forward modelling in the space domain is a very important task in geodesy and other geosciences. Fro...
Gravity gradients are an effective method for delineating the extent of subsurface density anomalies...
<p>Poster "Optimal forward calculation method of the Marussi tensor due to a geologic structure at G...
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