A global navigation satellite system (GNSS) receiver with multi-antenna using clock synchronization technology is a powerful piece of equipment for precise attitude determination and reducing costs. The single-difference (SD) can eliminate both the satellites and receiver clock errors with the common clock between antennas, which benefits the GNSS short-baseline attitude determination due to its lower noise, higher redundancy and stronger function model strength. However, the existence of uncalibrated phase delay (UPD) makes it difficult to obtain fixed SD attitude solutions. Therefore, the key problem for the fixed SD attitude solutions is to separate the SD UPD and fix the SD ambiguities into integers between antennas. This article introd...
A large number of researches suggest that integer ambiguity resolution(IAR) significantly improve th...
In multi-GNSS cases, two types of Double Difference (DD) ambiguity could be formed including an intr...
Attitude Determination (AD) of a spacecraft using the phase measurements of the Global Navigation Sa...
With multi-antenna synchronized global navigation satellite system (GNSS) receivers, the single diff...
This paper presents a novel approach to combining GPS and GLONASS to estimate heading and pitch usin...
A novel instantaneous method for GNSS attitude determination utilising a new phase-difference ambigu...
Global navigation satellite system (GNSS)-based attitude determination has been widely applied in a ...
A multi-antenna-based GNSS receiver is capable of providing high-precision and drift-free attitude s...
GNSS attitude determination has been widely used in various navigation and positioning applications,...
GNSS-based attitude determination is a viable technique with a large spectrum of applications. Attit...
When the receivers of GPS, GLONASS, COMPASS and other such systems are equipped with multiple antenn...
When the receivers of GPS, GLONASS and other such systems are equipped with multiple antennas, they ...
There is trend in spacecraft engineering toward distributed systems where a number of smaller spacec...
GNSS-only attitude determination is difficult to perform well in poor-satellite-tracking environment...
Global navigation satellite system (GNSS) ambiguity resolution is the process of resolving the unkno...
A large number of researches suggest that integer ambiguity resolution(IAR) significantly improve th...
In multi-GNSS cases, two types of Double Difference (DD) ambiguity could be formed including an intr...
Attitude Determination (AD) of a spacecraft using the phase measurements of the Global Navigation Sa...
With multi-antenna synchronized global navigation satellite system (GNSS) receivers, the single diff...
This paper presents a novel approach to combining GPS and GLONASS to estimate heading and pitch usin...
A novel instantaneous method for GNSS attitude determination utilising a new phase-difference ambigu...
Global navigation satellite system (GNSS)-based attitude determination has been widely applied in a ...
A multi-antenna-based GNSS receiver is capable of providing high-precision and drift-free attitude s...
GNSS attitude determination has been widely used in various navigation and positioning applications,...
GNSS-based attitude determination is a viable technique with a large spectrum of applications. Attit...
When the receivers of GPS, GLONASS, COMPASS and other such systems are equipped with multiple antenn...
When the receivers of GPS, GLONASS and other such systems are equipped with multiple antennas, they ...
There is trend in spacecraft engineering toward distributed systems where a number of smaller spacec...
GNSS-only attitude determination is difficult to perform well in poor-satellite-tracking environment...
Global navigation satellite system (GNSS) ambiguity resolution is the process of resolving the unkno...
A large number of researches suggest that integer ambiguity resolution(IAR) significantly improve th...
In multi-GNSS cases, two types of Double Difference (DD) ambiguity could be formed including an intr...
Attitude Determination (AD) of a spacecraft using the phase measurements of the Global Navigation Sa...