The determination of very precise orbits and geodynamic parameters from laser tracking data requires the continual development and improvement of the software systems and computational techniques. Computational accuracies at the few centimeter level are presently required to match the performance of the present day laser ranging systems and altimeters and in the next few years the accuracies are expected to increase further. The major error sources in orbit determination are briefly discussed and the present and future modeling activities needed to meet the accuracy requirements of the next few years are described
Laser ranging is expected to help unlock the mysteries of the earthquake phenomenon by producing uni...
The computation of a precise orbit reference is a fundamental component of the altimetric measuremen...
Laser altimeters are commonly used in planetary research for their high geodetic accuracy. A key pro...
New orbit computation techniques have been developed to realize the full precision of laser ranging ...
A network of satellite laser ranging (SLR) tracking systems with continuously improving accuracies i...
Taking advantage of the improvements to the Earth's gravitation field and tracking station coordinat...
Non-Bayesian statistics were used in simulation studies centered around laser range observations to ...
An artificial satellite orbit determination (OD) computer program is the most essential tool in sate...
Satellite Laser Ranging (SLR), i.e., the optical distance measurement to satellites equipped with la...
Over recent years considerable advances have taken place in the field of space geodesy, resulting in...
Recent improvements in the accuracy of modern satellite laser ranging (SLR) systems are strengthened...
The increasing amount of space debris requires huge efforts for the tracking networks in order to...
The nature and improvement in satellite orbit determination when precise altimetric height data are ...
Laser systems deployed in satellite tracking were upgraded to accuracy levels where biases from syst...
The increasing amount of space debris requires huge efforts for the tracking networks to maintain th...
Laser ranging is expected to help unlock the mysteries of the earthquake phenomenon by producing uni...
The computation of a precise orbit reference is a fundamental component of the altimetric measuremen...
Laser altimeters are commonly used in planetary research for their high geodetic accuracy. A key pro...
New orbit computation techniques have been developed to realize the full precision of laser ranging ...
A network of satellite laser ranging (SLR) tracking systems with continuously improving accuracies i...
Taking advantage of the improvements to the Earth's gravitation field and tracking station coordinat...
Non-Bayesian statistics were used in simulation studies centered around laser range observations to ...
An artificial satellite orbit determination (OD) computer program is the most essential tool in sate...
Satellite Laser Ranging (SLR), i.e., the optical distance measurement to satellites equipped with la...
Over recent years considerable advances have taken place in the field of space geodesy, resulting in...
Recent improvements in the accuracy of modern satellite laser ranging (SLR) systems are strengthened...
The increasing amount of space debris requires huge efforts for the tracking networks in order to...
The nature and improvement in satellite orbit determination when precise altimetric height data are ...
Laser systems deployed in satellite tracking were upgraded to accuracy levels where biases from syst...
The increasing amount of space debris requires huge efforts for the tracking networks to maintain th...
Laser ranging is expected to help unlock the mysteries of the earthquake phenomenon by producing uni...
The computation of a precise orbit reference is a fundamental component of the altimetric measuremen...
Laser altimeters are commonly used in planetary research for their high geodetic accuracy. A key pro...