Add to ORKGand is continuing his studies, towards a Ph.D. in Geomatics Engineering, in the field of positioning of navigation at the University of Calgary. In order to achieve the highest level of positioning accuracy using GPS, one must first determine the carrier phase integer ambiguities. This will also be true with the Global Navigation Satellite System (GNSS) proposed by the European Union, Galileo. This paper discusses the effect of the proposed satellite system, GPS, and an integrated solution of the two systems on ambiguity resolution in kinematic mode. This paper will examine the effectiveness of ambiguity resolution with Galileo, GPS, and a combined solution. The addition of the Galileo constellation will increase the efficiency and reliabil...
International audienceOn February 11, 2019, four additional Galileo satellites were put into service...
The improvement in positioning precision that can be expected from extending the GPS constellation w...
International audienceOn February 11, 2019, four additional Galileo satellites were put into service...
High-precision Global Navigation Satellite System (GNSS) positioning results are obtained with carri...
The modernization of the US GPS and the advent of the European Galileo will enhance the capability o...
The success of high-precision Global Navigation Satellite Systems (GNSS) kinematic positioning depen...
International audienceAmbiguity fixing to integer numbers of the phase measurements has been proven ...
Modernised GPS will provide navigation signals in three frequency bands and Europe's Galileo system ...
This paper presents an evaluation of several GNSS multicarrier ambiguity (MCAR) resolution technique...
This paper presents an evaluation of several GNSS multicarrier ambiguity (MCAR) resolution technique...
This study addresses the potential contribution of the first pair of Galileo FOC satellites sent int...
This contribution covers precise (cm-level) relative Global Navigation Satellite System(GNSS) positi...
Precise, long-range GPS kinematic positioning to centimetre accuracy requires the carrier phase ambi...
To achieve decimeter or even centimeter high precision positioning solutions, correct carrier phase ...
The Global Positioning System (GPS) and Galileo will transmit signals on similar frequencies, that i...
International audienceOn February 11, 2019, four additional Galileo satellites were put into service...
The improvement in positioning precision that can be expected from extending the GPS constellation w...
International audienceOn February 11, 2019, four additional Galileo satellites were put into service...
High-precision Global Navigation Satellite System (GNSS) positioning results are obtained with carri...
The modernization of the US GPS and the advent of the European Galileo will enhance the capability o...
The success of high-precision Global Navigation Satellite Systems (GNSS) kinematic positioning depen...
International audienceAmbiguity fixing to integer numbers of the phase measurements has been proven ...
Modernised GPS will provide navigation signals in three frequency bands and Europe's Galileo system ...
This paper presents an evaluation of several GNSS multicarrier ambiguity (MCAR) resolution technique...
This paper presents an evaluation of several GNSS multicarrier ambiguity (MCAR) resolution technique...
This study addresses the potential contribution of the first pair of Galileo FOC satellites sent int...
This contribution covers precise (cm-level) relative Global Navigation Satellite System(GNSS) positi...
Precise, long-range GPS kinematic positioning to centimetre accuracy requires the carrier phase ambi...
To achieve decimeter or even centimeter high precision positioning solutions, correct carrier phase ...
The Global Positioning System (GPS) and Galileo will transmit signals on similar frequencies, that i...
International audienceOn February 11, 2019, four additional Galileo satellites were put into service...
The improvement in positioning precision that can be expected from extending the GPS constellation w...
International audienceOn February 11, 2019, four additional Galileo satellites were put into service...