Add to ORKGThe University of Texas Center for Space Research research efforts under NASA Grant No. NAG-1936 from 1 Jan. 1992 - 31 Dec. 1992 were in the following areas: GPS orbit accuracy assessments and efforts to improve the accuracy; analysis of global GPS data collected during the first three months of the IGS campaign, and analysis of regional data. A brief summary of each of the above activities is presented in the following
Geocentric tracking station coordinates and short-period Earth-orientation variations can be measure...
With the advent of Earth-orbiting geodetic satellites, nongeocentric datums or reference frames have...
Current research is reported on precise and accurate descriptions of the earth's surface and gravita...
Effort during the period form January 1, 1993 to December 31, 1993 were in the following areas: GPS ...
The emphasis of this grant was focused on precision ephemerides for the Global Positioning System (G...
The required knowledge of the Global Positioning System (GPS) satellite position accuracy can vary d...
Based on the research, the area of precise ephemerides for GPS satellites, the following observation...
High precision orbit determination of Global Positioning System (GPS) satellites is a key requiremen...
The goal of this project is to improve our current understanding of GPS error sources associated wit...
Additional results are presented concerning a study that considers improvements over present Earth R...
Components of the IGS[International GPS (Global Positioning System) Service for geodynamics], have o...
Data collected from a worldwide 1992 experiment were processed at JPL to determine precise orbits fo...
An artificial satellite orbit determination (OD) computer program is the most essential tool in sate...
Orbits for satellites of the Global Positioning System (GPS) were determined with submeter accuracy....
One of the main goals of the LAGEOS satellite mission is the detection of regional geotectonic movem...
Geocentric tracking station coordinates and short-period Earth-orientation variations can be measure...
With the advent of Earth-orbiting geodetic satellites, nongeocentric datums or reference frames have...
Current research is reported on precise and accurate descriptions of the earth's surface and gravita...
Effort during the period form January 1, 1993 to December 31, 1993 were in the following areas: GPS ...
The emphasis of this grant was focused on precision ephemerides for the Global Positioning System (G...
The required knowledge of the Global Positioning System (GPS) satellite position accuracy can vary d...
Based on the research, the area of precise ephemerides for GPS satellites, the following observation...
High precision orbit determination of Global Positioning System (GPS) satellites is a key requiremen...
The goal of this project is to improve our current understanding of GPS error sources associated wit...
Additional results are presented concerning a study that considers improvements over present Earth R...
Components of the IGS[International GPS (Global Positioning System) Service for geodynamics], have o...
Data collected from a worldwide 1992 experiment were processed at JPL to determine precise orbits fo...
An artificial satellite orbit determination (OD) computer program is the most essential tool in sate...
Orbits for satellites of the Global Positioning System (GPS) were determined with submeter accuracy....
One of the main goals of the LAGEOS satellite mission is the detection of regional geotectonic movem...
Geocentric tracking station coordinates and short-period Earth-orientation variations can be measure...
With the advent of Earth-orbiting geodetic satellites, nongeocentric datums or reference frames have...
Current research is reported on precise and accurate descriptions of the earth's surface and gravita...