Abstract: Integer ambiguity resolution at a single station can be preformed if the fractional-cycle biases are separated from the ambiguity estimates in precise point positioning (PPP). Despite the improved positioning accuracy by such integer resolutions, the convergence to an ambiguity-fixed solution normally requires at least a few tens of minutes. More importantly, such convergences can repeatedly occur on the occasion of losses of tracking locks for many satellites if an open sky-view is not constantly available, consequently totally destroying the practicability of real-time PPP. In this study, in case of such re-convergences, we develop a method in which ionospheric delays are precisely predicted to significantly accelerate integer a...
This paper proposes a method for precise point positioning with integer ambiguity resolution (PPP-AR...
This paper deals with the real-time onboard accurate relative positioning by carrier-phase different...
“Pass-by-pass” or “track-to-track” ambiguity resolution removes Global Navigation Satellite System (...
peer reviewedInteger ambiguity resolution at a single station can be preformed if the fractional-cyc...
GPS precise point positioning (PPP) has been used in many scientific and commercial applications due...
Precise Point Positioning (PPP) is a powerful method for GNSS data processing, when observations fro...
Because of the dynamics of the GPS technique used in different domains like geodesy, near real-time ...
© 2006 Dr. Neil E. BrownSatellite-based navigation systems make it possible to determine the relativ...
peer reviewedInteger ambiguity resolution at a single station can be achieved by introducing predete...
Typically, differential carrier-phase-based methods have been used in positioning applications that ...
A single-receiver integer ambiguity resolution-enabled precise point positioning (PPP-RTK) user expe...
Global navigation satellite sensors can transmit three frequency signals. When the classical three-c...
High-precision (centimeter-level) real-time kinematic precise point positioning (PPP-RTK) becomes fe...
Precise Point Positioning (PPP) is a Global Navigation Satellite Systems (GNSS) modelling and proces...
peer reviewedPrecise Point Positioning (PPP) has become a recognized and powerful tool for scientifi...
This paper proposes a method for precise point positioning with integer ambiguity resolution (PPP-AR...
This paper deals with the real-time onboard accurate relative positioning by carrier-phase different...
“Pass-by-pass” or “track-to-track” ambiguity resolution removes Global Navigation Satellite System (...
peer reviewedInteger ambiguity resolution at a single station can be preformed if the fractional-cyc...
GPS precise point positioning (PPP) has been used in many scientific and commercial applications due...
Precise Point Positioning (PPP) is a powerful method for GNSS data processing, when observations fro...
Because of the dynamics of the GPS technique used in different domains like geodesy, near real-time ...
© 2006 Dr. Neil E. BrownSatellite-based navigation systems make it possible to determine the relativ...
peer reviewedInteger ambiguity resolution at a single station can be achieved by introducing predete...
Typically, differential carrier-phase-based methods have been used in positioning applications that ...
A single-receiver integer ambiguity resolution-enabled precise point positioning (PPP-RTK) user expe...
Global navigation satellite sensors can transmit three frequency signals. When the classical three-c...
High-precision (centimeter-level) real-time kinematic precise point positioning (PPP-RTK) becomes fe...
Precise Point Positioning (PPP) is a Global Navigation Satellite Systems (GNSS) modelling and proces...
peer reviewedPrecise Point Positioning (PPP) has become a recognized and powerful tool for scientifi...
This paper proposes a method for precise point positioning with integer ambiguity resolution (PPP-AR...
This paper deals with the real-time onboard accurate relative positioning by carrier-phase different...
“Pass-by-pass” or “track-to-track” ambiguity resolution removes Global Navigation Satellite System (...