Add to ORKGThe earth physics satellite systems error analysis program was applied to the problem of predicting the relative accuracy of station position determinations under varying orbital and observing geometries. The reference case consists of nine ground stations extending over 1500 km which lasers ranged to a LAGEOS satellite, with simultaneous Doppler tracking from a geosynchronous satellite for 16 days. Eleven variations from the reference case were tested. The results showed little sensitivity to whether the LAGEOS altitude is 3700 or 5690 km. More significant were the high inclination, and that LAGEOS was tracked by a geosynchronous satellite
The orbit accuracies needed to support the global crustal dynamics project and recent satellite alti...
The dependence (or independence) of baseline accuracies, obtained from a typical mission of a spaceb...
Global navigation satellite systems (GNSS) have become the mainstay of transportation systems worldw...
Error analysis of distant-satellite-to-close-satellite range-rate, satellite-to-sea altimetry, and g...
Location errors of tracking stations affecting computed position of GEOS-1 satellite and fits of dat...
The results of various sets of tracking error analysis studies of the ability of ground stations to ...
Tracking station location uncertainties studied for effect on root-mean-square errors in spacecraft ...
An artificial satellite orbit determination (OD) computer program is the most essential tool in sate...
A network of satellite laser ranging (SLR) tracking systems with continuously improving accuracies i...
Activities related to the National Geodetic Satellite Program are reported and include a discussion ...
The uncertainty in the geopotential model is currently one of the major error sources in the orbit d...
An error analysis study was conducted in order to assess the current accuracies and the future antic...
The concept of a Global Positioning System (GPS) receiver as a tracking facility and a gradiometer a...
Effective utilization of data from the GEOS-C satellite for geoidal mapping was explored. Particular...
The Global Positioning System (GPS) constellation provides ranging information that delivers inexpen...
The orbit accuracies needed to support the global crustal dynamics project and recent satellite alti...
The dependence (or independence) of baseline accuracies, obtained from a typical mission of a spaceb...
Global navigation satellite systems (GNSS) have become the mainstay of transportation systems worldw...
Error analysis of distant-satellite-to-close-satellite range-rate, satellite-to-sea altimetry, and g...
Location errors of tracking stations affecting computed position of GEOS-1 satellite and fits of dat...
The results of various sets of tracking error analysis studies of the ability of ground stations to ...
Tracking station location uncertainties studied for effect on root-mean-square errors in spacecraft ...
An artificial satellite orbit determination (OD) computer program is the most essential tool in sate...
A network of satellite laser ranging (SLR) tracking systems with continuously improving accuracies i...
Activities related to the National Geodetic Satellite Program are reported and include a discussion ...
The uncertainty in the geopotential model is currently one of the major error sources in the orbit d...
An error analysis study was conducted in order to assess the current accuracies and the future antic...
The concept of a Global Positioning System (GPS) receiver as a tracking facility and a gradiometer a...
Effective utilization of data from the GEOS-C satellite for geoidal mapping was explored. Particular...
The Global Positioning System (GPS) constellation provides ranging information that delivers inexpen...
The orbit accuracies needed to support the global crustal dynamics project and recent satellite alti...
The dependence (or independence) of baseline accuracies, obtained from a typical mission of a spaceb...
Global navigation satellite systems (GNSS) have become the mainstay of transportation systems worldw...