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covarianceSoftware
A theoretical model for the range error covariance was derived by assuming that the residual refraction errors are due entirely to errors in the meteorological data which are used to calculate the atmospheric correction. The properties of the covariance function are illustrated by evaluating the theoretical model for the special case of a dense network of weather stations uniformly distributed within a circle
Horizontal variations in the atmospheric refractivity are a limiting error source for many precise l...
The statistical properties of the signals reflected from the retroreflector equipped satellites were...
Laser systems deployed in satellite tracking were upgraded to accuracy levels where biases from syst...
Because of the mathematical complexities involved in exact analyses of baseline errors, it is not ea...
The theory of systematic atmospheric radio refraction errors affecting measurements of range and ran...
The refraction effect from three perspectives was considered. An analysis of the axioms on which the...
The requirements and limitations of employing an airborne laser ranging system for detecting crustal...
The dependence (or independence) of baseline accuracies, obtained from a typical mission of a spaceb...
The precision of satellite ranging systems, limited in part by atmospheric refraction and scattering...
In this paper we reconsider the formulae of tropospheric refraction correction for the Satellite Las...
The most important accuracy-limiting factor for modern space-based geodetic techniques such as Satel...
Atmospheric refraction is an important accuracy-limiting factor in the application of satellite lase...
Optical measurements of range and elevation angle are distorted by the earth's atmosphere. High prec...
A formula for correcting laser measurements of satellite range for the effect of atmospheric refract...
Methods are presented for locating threshold points by using laser pulse analysis. It was found that...
Horizontal variations in the atmospheric refractivity are a limiting error source for many precise l...
The statistical properties of the signals reflected from the retroreflector equipped satellites were...
Laser systems deployed in satellite tracking were upgraded to accuracy levels where biases from syst...
Because of the mathematical complexities involved in exact analyses of baseline errors, it is not ea...
The theory of systematic atmospheric radio refraction errors affecting measurements of range and ran...
The refraction effect from three perspectives was considered. An analysis of the axioms on which the...
The requirements and limitations of employing an airborne laser ranging system for detecting crustal...
The dependence (or independence) of baseline accuracies, obtained from a typical mission of a spaceb...
The precision of satellite ranging systems, limited in part by atmospheric refraction and scattering...
In this paper we reconsider the formulae of tropospheric refraction correction for the Satellite Las...
The most important accuracy-limiting factor for modern space-based geodetic techniques such as Satel...
Atmospheric refraction is an important accuracy-limiting factor in the application of satellite lase...
Optical measurements of range and elevation angle are distorted by the earth's atmosphere. High prec...
A formula for correcting laser measurements of satellite range for the effect of atmospheric refract...
Methods are presented for locating threshold points by using laser pulse analysis. It was found that...
Horizontal variations in the atmospheric refractivity are a limiting error source for many precise l...
The statistical properties of the signals reflected from the retroreflector equipped satellites were...
Laser systems deployed in satellite tracking were upgraded to accuracy levels where biases from syst...
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