Add to ORKGAbstract. The integer ambiguity should be resolved at the beginning stage of GPS carrier phase positioning. In this procedure, some additional information can be used to improve the ambiguity resolution performance, for example, the positioning information of INS/GPS integrated system and baseline constraint of two adjacent antennas. This improvement is well known by experiment or simulation. But the quantitative characteristic of the improvement is not known yet. In this paper, we analyse this improvement quantitatively using the success rate
and is continuing his studies, towards a Ph.D. in Geomatics Engineering, in the field of positioning...
The modernization of the US GPS and the advent of the European Galileo will enhance the capability o...
The principle of positioning with the Global Positioning System (GPS) is based on determining the di...
To operate, guide and control vehicles in low visibility conditions, it is critical that the states ...
The Global Positioning System (GPS) nowadays is used for a whole variety of positioning and navigati...
Abstract—Real-time decimeter accuracy GPS positioning can be achieved using carrier phase measuremen...
Since the last decade the integer phase ambiguity resolution has become one of the most important el...
Integer carrier-phase ambiguity resolution is the key to fast and high-precision Global Navigation S...
Resolving the GPS carrier-phase ambiguities has been a continuing challenge for sub-centimeter-level...
Abstract. Reliable determination of integer ambiguities is a critical issue in high-precision global...
In this contribution we will discuss some issues of GPS ambiguity resolution. The issues are related...
This research investigates how to obtain accurate and reliable positioning results with global navig...
The US GPS and the planed Quasi Zenith Satellite System (QZSS) will enhance the capability of quickl...
Abstract. Carrier phase ambiguity resolution is the key to fast and high precision GPS positioning. ...
Carrier phase ambiguity resolution is the key to fast and high precision GPS kinematic positioning. ...
and is continuing his studies, towards a Ph.D. in Geomatics Engineering, in the field of positioning...
The modernization of the US GPS and the advent of the European Galileo will enhance the capability o...
The principle of positioning with the Global Positioning System (GPS) is based on determining the di...
To operate, guide and control vehicles in low visibility conditions, it is critical that the states ...
The Global Positioning System (GPS) nowadays is used for a whole variety of positioning and navigati...
Abstract—Real-time decimeter accuracy GPS positioning can be achieved using carrier phase measuremen...
Since the last decade the integer phase ambiguity resolution has become one of the most important el...
Integer carrier-phase ambiguity resolution is the key to fast and high-precision Global Navigation S...
Resolving the GPS carrier-phase ambiguities has been a continuing challenge for sub-centimeter-level...
Abstract. Reliable determination of integer ambiguities is a critical issue in high-precision global...
In this contribution we will discuss some issues of GPS ambiguity resolution. The issues are related...
This research investigates how to obtain accurate and reliable positioning results with global navig...
The US GPS and the planed Quasi Zenith Satellite System (QZSS) will enhance the capability of quickl...
Abstract. Carrier phase ambiguity resolution is the key to fast and high precision GPS positioning. ...
Carrier phase ambiguity resolution is the key to fast and high precision GPS kinematic positioning. ...
and is continuing his studies, towards a Ph.D. in Geomatics Engineering, in the field of positioning...
The modernization of the US GPS and the advent of the European Galileo will enhance the capability o...
The principle of positioning with the Global Positioning System (GPS) is based on determining the di...