The earth physics satellite systems error analysis program was applied to the problem of predicting ...
The uncertainty in the geopotential model is currently one of the major error sources in the orbit d...
Methods of determining satellite orbit and attitude parameters are considered. The Goddard Trajector...
Accumulation of errors using numerical integration methods for solving celestial equations of motio
textAs technological advances throughout the field of satellite geodesy improve the accuracy of sate...
Computer program for numerical integration of equations of motion for artificial earth satellite orb...
Local error control for optimization of numerical integration orbit calculation technique
Comparison of fourth order Runge-Kutta numerical integration technique with two numerical integratio...
Error analysis of distant-satellite-to-close-satellite range-rate, satellite-to-sea altimetry, and g...
Methods of orbital position estimation were reviewed. The problem of accuracy in orbital mechanics i...
Error analysis of strapdown and local level inertial navigation systems which compute in geographic ...
Knowledge of accuracy of numerical integration is important for composing an overall nu-merical erro...
Comparison of analytical relative motion theory with numerical solution for equations of planar moti...
Two general purpose numerical integration schemes were built into the NASA-JSC computer system. The ...
Local error control concept effect on optimization of orbital integration by multistep proces
The earth physics satellite systems error analysis program was applied to the problem of predicting ...
The uncertainty in the geopotential model is currently one of the major error sources in the orbit d...
Methods of determining satellite orbit and attitude parameters are considered. The Goddard Trajector...
Accumulation of errors using numerical integration methods for solving celestial equations of motio
textAs technological advances throughout the field of satellite geodesy improve the accuracy of sate...
Computer program for numerical integration of equations of motion for artificial earth satellite orb...
Local error control for optimization of numerical integration orbit calculation technique
Comparison of fourth order Runge-Kutta numerical integration technique with two numerical integratio...
Error analysis of distant-satellite-to-close-satellite range-rate, satellite-to-sea altimetry, and g...
Methods of orbital position estimation were reviewed. The problem of accuracy in orbital mechanics i...
Error analysis of strapdown and local level inertial navigation systems which compute in geographic ...
Knowledge of accuracy of numerical integration is important for composing an overall nu-merical erro...
Comparison of analytical relative motion theory with numerical solution for equations of planar moti...
Two general purpose numerical integration schemes were built into the NASA-JSC computer system. The ...
Local error control concept effect on optimization of orbital integration by multistep proces
The earth physics satellite systems error analysis program was applied to the problem of predicting ...
The uncertainty in the geopotential model is currently one of the major error sources in the orbit d...
Methods of determining satellite orbit and attitude parameters are considered. The Goddard Trajector...