Add to ORKG197-200The performance of global positioning system (GPS) is limited by several sources of errors. Receiver system pseudorange error is one such error. A self-calibration of pseudorange error (SCORE) algorithm, which was proposed recently to correct it and used at midlatitude regions, has been applied in this paper for low latitude regions. The results are promising and have shown marked improvement in GPS position accuracy
Abstract: The purpose of this work is study of possibility creating spacecraft's control s...
This paper addresses the performance comparisons of the GPS pseudorange and pseudorange rate measure...
Abstract: We analyze typical positioning errors of the GPS system and present an approach to improve...
Abstract: The purpose of this work is study of possibility building spacecraft's control s...
We have developed a suite of real-time precise point positioning programs to process GPS pseudorange...
Code pseudorange measurement noise is one of the major error sources in Precise Point Positioning. A...
Abstract—This paper evaluates the positioning performance of a single-frequency software GPS receive...
AbstractRadio Frequency (RF) signals broadcast by Global Positioning System (GPS) satellites have be...
Most GPS users employ low cost receivers. These receivers do not allow users to record the pseudoran...
Abstract: This study compares in quantitative terms two methods of differential corrections to GPS p...
Satellite navigation systems such as GPS, GLONASS or the future European system GALILEO are made of ...
International audienceStand-alone GNSS positioning is challenged to meet the applications’ demanded ...
The calculation algorithm of user’s position data is cited with the addition of GPS and GLONASS navi...
The issues of measurement accuracy of coordinates in the short-range navigation system based on pseu...
This paper describes determination of GPS receiver position using Linearization technique and Bancro...
Abstract: The purpose of this work is study of possibility creating spacecraft's control s...
This paper addresses the performance comparisons of the GPS pseudorange and pseudorange rate measure...
Abstract: We analyze typical positioning errors of the GPS system and present an approach to improve...
Abstract: The purpose of this work is study of possibility building spacecraft's control s...
We have developed a suite of real-time precise point positioning programs to process GPS pseudorange...
Code pseudorange measurement noise is one of the major error sources in Precise Point Positioning. A...
Abstract—This paper evaluates the positioning performance of a single-frequency software GPS receive...
AbstractRadio Frequency (RF) signals broadcast by Global Positioning System (GPS) satellites have be...
Most GPS users employ low cost receivers. These receivers do not allow users to record the pseudoran...
Abstract: This study compares in quantitative terms two methods of differential corrections to GPS p...
Satellite navigation systems such as GPS, GLONASS or the future European system GALILEO are made of ...
International audienceStand-alone GNSS positioning is challenged to meet the applications’ demanded ...
The calculation algorithm of user’s position data is cited with the addition of GPS and GLONASS navi...
The issues of measurement accuracy of coordinates in the short-range navigation system based on pseu...
This paper describes determination of GPS receiver position using Linearization technique and Bancro...
Abstract: The purpose of this work is study of possibility creating spacecraft's control s...
This paper addresses the performance comparisons of the GPS pseudorange and pseudorange rate measure...
Abstract: We analyze typical positioning errors of the GPS system and present an approach to improve...