Ambiguity resolution (AR) in precise point positioning (PPP) requires precise satellite orbit, clocks, and phase biases corrections. Satellite phase biases are fractional hardware corrections which help to retrieve the un-differenced integer carrier phase ambiguities. Satellite corrections can be obtained from the international GNSS service (IGS) or estimated by correction providers called producer-side. We introduce a new PPP-AR observation model and a new sequential network algorithm (SNA) to estimate satellite phase biases. The new model is fully compatible with standard IGS satellite correction products, and it takes advantage of currently available IGS global ionosphere maps to improve the stability of corrections estimation. Furthermo...
Satellite orbit error and clock bias are the keys to precise point positioning (PPP). The traditiona...
Precise Point Positioning (PPP) is traditionally based on dual-frequency observations of GPS or GPS/...
Data processing for large-scale GNSS network is faced with increasing challenges as both the number ...
Ambiguity resolution (AR) in precise point positioning (PPP) requires precise satellite orbit, clock...
Single-receiver integer ambiguity resolution (IAR) is a measurement concept that makes use of networ...
Integer ambiguity resolution at a single GNSS receiver gets feasible, if network-derived satellite p...
The concept of PPP-RTK is to achieve integer ambiguity resolution (IAR) at a single GNSS user by pro...
Precise Point Positioning (PPP) is used in a broad variety of applications to determine very economi...
Continuously operating GPS networks have been used for many years in support of: (a) geodetic goals ...
The generation and use of GNSS analysis products that allowparticularly for the needs of single-rece...
Integer ambiguity resolution enabled Precise (cm-level) Point Positioning (PPP) is feasible if corre...
This paper describes a method of processing Global Positioning System (GPS) observations to achieve ...
Precise Point Positioning (PPP) is a Global Navigation Satellite System (GNSS) processing method wit...
Based on original code and phase measurements to three or more ranging signals offered by future GNS...
Global Navigation Satellite System (GNSS) data from reference station networks deployed globally can...
Satellite orbit error and clock bias are the keys to precise point positioning (PPP). The traditiona...
Precise Point Positioning (PPP) is traditionally based on dual-frequency observations of GPS or GPS/...
Data processing for large-scale GNSS network is faced with increasing challenges as both the number ...
Ambiguity resolution (AR) in precise point positioning (PPP) requires precise satellite orbit, clock...
Single-receiver integer ambiguity resolution (IAR) is a measurement concept that makes use of networ...
Integer ambiguity resolution at a single GNSS receiver gets feasible, if network-derived satellite p...
The concept of PPP-RTK is to achieve integer ambiguity resolution (IAR) at a single GNSS user by pro...
Precise Point Positioning (PPP) is used in a broad variety of applications to determine very economi...
Continuously operating GPS networks have been used for many years in support of: (a) geodetic goals ...
The generation and use of GNSS analysis products that allowparticularly for the needs of single-rece...
Integer ambiguity resolution enabled Precise (cm-level) Point Positioning (PPP) is feasible if corre...
This paper describes a method of processing Global Positioning System (GPS) observations to achieve ...
Precise Point Positioning (PPP) is a Global Navigation Satellite System (GNSS) processing method wit...
Based on original code and phase measurements to three or more ranging signals offered by future GNS...
Global Navigation Satellite System (GNSS) data from reference station networks deployed globally can...
Satellite orbit error and clock bias are the keys to precise point positioning (PPP). The traditiona...
Precise Point Positioning (PPP) is traditionally based on dual-frequency observations of GPS or GPS/...
Data processing for large-scale GNSS network is faced with increasing challenges as both the number ...