The design of Galileo has been conceived so as to facilitate its possible joint use with GPS thus contributing to a favorable multi-GNSS environment. Evaluating the performances of such multi-GNSS combination is crucial for end users to assess the quality of obtainable PVT and the easiness of interoperability of the two systems. In this paper, we evaluate the GPS/Galileo integration performances in terms of estimated precision in position determination and in terms of availability of the service. Results obtained from real data are presented and show that there is an improvement of both these criteria when the two systems are jointly used
Suffering from hardware phase biases originating from satellites and the receiver, precise point pos...
Global Positioning System (GPS) has been widely used worldwide for a variety of applications such as...
State of the art Precise Point Positioning (PPP) is currently based on dual-frequency processing of ...
The design of Galileo has been conceived so as to facilitate its possible joint use with GPS thus co...
Interoperability with GPS has been one of the drivers for Galileo definition and design. This paper ...
The performance of a Global Navigation Satellite System (GNSS) can be quantified by availability, ac...
The Galileo constellations are characterized by transmitting GNSS signals on multi-frequencies, whic...
For the last two decades, the American GPS and Russian GLONASS were the basic systems used in global...
Nowadays, both BDS-3 and Galileo can provide global positioning and navigation services. This contri...
Looking forward for the advent of the future European navigation system Galileo, we anticipate a big...
Global Positioning System (GPS) has been widely used worldwide for a variety of applications such as...
Scientific collaboration between Italian and Vietnamese institutions in the field of Global Satellit...
The use of multiple GNSS constellations has been bene fi ciary to positioning performances and reliab...
In modern warfare navigation services are very important. GPS is currently providing service for acc...
This paper introduces a newly developed model for both single and dual-frequency precise point posit...
Suffering from hardware phase biases originating from satellites and the receiver, precise point pos...
Global Positioning System (GPS) has been widely used worldwide for a variety of applications such as...
State of the art Precise Point Positioning (PPP) is currently based on dual-frequency processing of ...
The design of Galileo has been conceived so as to facilitate its possible joint use with GPS thus co...
Interoperability with GPS has been one of the drivers for Galileo definition and design. This paper ...
The performance of a Global Navigation Satellite System (GNSS) can be quantified by availability, ac...
The Galileo constellations are characterized by transmitting GNSS signals on multi-frequencies, whic...
For the last two decades, the American GPS and Russian GLONASS were the basic systems used in global...
Nowadays, both BDS-3 and Galileo can provide global positioning and navigation services. This contri...
Looking forward for the advent of the future European navigation system Galileo, we anticipate a big...
Global Positioning System (GPS) has been widely used worldwide for a variety of applications such as...
Scientific collaboration between Italian and Vietnamese institutions in the field of Global Satellit...
The use of multiple GNSS constellations has been bene fi ciary to positioning performances and reliab...
In modern warfare navigation services are very important. GPS is currently providing service for acc...
This paper introduces a newly developed model for both single and dual-frequency precise point posit...
Suffering from hardware phase biases originating from satellites and the receiver, precise point pos...
Global Positioning System (GPS) has been widely used worldwide for a variety of applications such as...
State of the art Precise Point Positioning (PPP) is currently based on dual-frequency processing of ...
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