Add to ORKGNear real-time Lageos laser ranging data are analyzed in terms of range bias, time bias, and internal precision, and estimates for earth orientation parameters X(sub p), Y(sub p), and UT1 are obtained. The results of these analyses are reported in a variety of formats. Copies of monthly summaries from November, 1986 through November, 1987 are included
Non-Bayesian statistics were used in simulation studies centered around laser range observations to ...
One of the main goals of the LAGEOS satellite mission is the detection of regional geotectonic movem...
In this study, we present results of precise orbital geodetic parameter estimation using satellite l...
Center for Space Research efforts have focused on the near real-time analysis of Lageos laser rangin...
A multi-faceted effort was maintained to achieve the following goals: (1) provide for state-of-the-a...
Satellite laser ranging has matured over the last decade into one of the essential space geodesy tec...
For the optimal use of high precision lunar laser ranging (LLR), an investigation regarding a clear ...
A network of satellite laser ranging (SLR) tracking systems with continuously improving accuracies i...
The analysis of simultaneous laser data is investigated using the method of trilateration. Analysis ...
Starlette Satellite Laser Ranging (SLR) data were used, along with several other satellite data sets...
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 results of geodynamic research from the analysis of satellite laser ranging data to Starlette ar...
Abstract. The groundwork for a new field in the geophysical sciences-space geodesy-was laid in the 1...
The technique of range differencing with Lageos ranges to obtain more accurate estimates of baseline...
Non-Bayesian statistics were used in simulation studies centered around laser range observations to ...
One of the main goals of the LAGEOS satellite mission is the detection of regional geotectonic movem...
In this study, we present results of precise orbital geodetic parameter estimation using satellite l...
Center for Space Research efforts have focused on the near real-time analysis of Lageos laser rangin...
A multi-faceted effort was maintained to achieve the following goals: (1) provide for state-of-the-a...
Satellite laser ranging has matured over the last decade into one of the essential space geodesy tec...
For the optimal use of high precision lunar laser ranging (LLR), an investigation regarding a clear ...
A network of satellite laser ranging (SLR) tracking systems with continuously improving accuracies i...
The analysis of simultaneous laser data is investigated using the method of trilateration. Analysis ...
Starlette Satellite Laser Ranging (SLR) data were used, along with several other satellite data sets...
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 results of geodynamic research from the analysis of satellite laser ranging data to Starlette ar...
Abstract. The groundwork for a new field in the geophysical sciences-space geodesy-was laid in the 1...
The technique of range differencing with Lageos ranges to obtain more accurate estimates of baseline...
Non-Bayesian statistics were used in simulation studies centered around laser range observations to ...
One of the main goals of the LAGEOS satellite mission is the detection of regional geotectonic movem...
In this study, we present results of precise orbital geodetic parameter estimation using satellite l...