Attitude determination using double-differenced GNSS carrier phase measurements is studied. A realistic stochastic model is employed to take the correlations among the double-differenced measurements into full consideration. Two important issues concerning iteratively solving the nonlinear least-squares attitude determination problem are treated, namely, the initial guess and the iteration scheme. An analytical and sub-optimal solution is employed to provide the initial guess. In this solution, the orthogonal and determinant constraints among the elements of the direction cosine matrix (DCM) of the attitude are firstly ignored, and hence a relaxed 3×3 matrix is estimated using the linear weighted least-squares method. Then a mathematically ...
When the receivers of GPS, GLONASS and other such systems are equipped with multiple antennas, they ...
Abstract: The vectorized algorithms for GPS based attitude determination can be equivalent to a two-...
textThis dissertation presents the development of a new algorithm for processing GPS signals to com...
Attitude determination through the use of Global Navigation Satellite System (GNSS) signals is one o...
A multi-antenna-based GNSS receiver is capable of providing high-precision and drift-free attitude s...
Global Navigation Satellite Systems (GNSS)-based attitude determination is a valuable technique for ...
Attitude determination through the use of Global Navigation Satellite System (GNSS) signals is one o...
In this research study, several new algorithms are developed to achieve spacecraft attitude determin...
In this paper,several efficient algorithms are implemented and evaluated for estimating the attitude...
GNSS-based attitude determination is a viable technique with a large spectrum of applications. Attit...
GNSS (Global Navigation Satellite Systems)-based attitude determination is an important field of stu...
Attitude Determination (AD) of a spacecraft using the phase measurements of the Global Navigation Sa...
Attitude determination is a popular application of Global Navigation Satellite Systems (GNSS). Many ...
A new global navigation satellite system (GNSS) carrier-phase attitude model and its solution are in...
If three or more GPS antennas are mounted properly on a platform and differences of GPS signals meas...
When the receivers of GPS, GLONASS and other such systems are equipped with multiple antennas, they ...
Abstract: The vectorized algorithms for GPS based attitude determination can be equivalent to a two-...
textThis dissertation presents the development of a new algorithm for processing GPS signals to com...
Attitude determination through the use of Global Navigation Satellite System (GNSS) signals is one o...
A multi-antenna-based GNSS receiver is capable of providing high-precision and drift-free attitude s...
Global Navigation Satellite Systems (GNSS)-based attitude determination is a valuable technique for ...
Attitude determination through the use of Global Navigation Satellite System (GNSS) signals is one o...
In this research study, several new algorithms are developed to achieve spacecraft attitude determin...
In this paper,several efficient algorithms are implemented and evaluated for estimating the attitude...
GNSS-based attitude determination is a viable technique with a large spectrum of applications. Attit...
GNSS (Global Navigation Satellite Systems)-based attitude determination is an important field of stu...
Attitude Determination (AD) of a spacecraft using the phase measurements of the Global Navigation Sa...
Attitude determination is a popular application of Global Navigation Satellite Systems (GNSS). Many ...
A new global navigation satellite system (GNSS) carrier-phase attitude model and its solution are in...
If three or more GPS antennas are mounted properly on a platform and differences of GPS signals meas...
When the receivers of GPS, GLONASS and other such systems are equipped with multiple antennas, they ...
Abstract: The vectorized algorithms for GPS based attitude determination can be equivalent to a two-...
textThis dissertation presents the development of a new algorithm for processing GPS signals to com...