Add to ORKGpeer reviewedThe analysis of GNSS signal and the use a dense network of ground-based stations allow to measure tropospheric parameters that can be used for near real-time (NRT) meteorological applications (e.g. monitoring of the delay of the neutral atmosphere and the detection of blobs of water vapour). On the other hand, the meteorological activity can impact GNSS positioning solutions. For this reason, NRT indicators of the tropospheric activity related to the disturbance of GNSS signal are required. Using a dense network of GNSS stations, this study presents a new NRT indicator based on the double differences of the ionosphere-free combination. To validate this indicator, the impact of severe weather conditions on RTK positioning soluti...
Until now, RTK (real-time kinematic) and NRTK (Network-based RTK) have been the most popular cm-leve...
Global positioning system (GPS) satellites operate at 1.2 and 1.5 GHz. The GPS signals travel throug...
This work investigates the positioning error of five Nigeria GNSS network stations during the geomag...
GNSS RTK (Real-Time Kinematic) positioning techniques are based on precise but ambiguous carrier pha...
Global Navigation Satellite System (GNSS) are used to determine positions. As GNSS signals traverse ...
The Global Navigation Satellite System (GNSS) is commonly recognized by its all-weather capability. ...
Since many years, the GNSS has been regarded by the meteorological community as one of the systems f...
The paper reviews the influence of atmospheric perturbations acting on precise time tranfer applicat...
Global navigation satellite systems (GNSSs) have revolutionised positioning, navigation, and timing,...
Positioning error components related to tropospheric and ionospheric delays are caused by the atmosp...
The Global Navigation Satellite System (GNSS) signal experiences delays caused by the atmosphere, le...
Based on two-frequency phase measurements of GNSS signals by ground-based receivers, zenith delays o...
In GNSS analysis, the tropospheric delay is parameterized by applying mapping functions (MFs), zenit...
AbstractThe tropospheric delay is a serious error source for positioning using Global Navigation Sat...
Whether in cars, smartphones, watches or fitness-trackers - the use of Global Navigation Satellite S...
Until now, RTK (real-time kinematic) and NRTK (Network-based RTK) have been the most popular cm-leve...
Global positioning system (GPS) satellites operate at 1.2 and 1.5 GHz. The GPS signals travel throug...
This work investigates the positioning error of five Nigeria GNSS network stations during the geomag...
GNSS RTK (Real-Time Kinematic) positioning techniques are based on precise but ambiguous carrier pha...
Global Navigation Satellite System (GNSS) are used to determine positions. As GNSS signals traverse ...
The Global Navigation Satellite System (GNSS) is commonly recognized by its all-weather capability. ...
Since many years, the GNSS has been regarded by the meteorological community as one of the systems f...
The paper reviews the influence of atmospheric perturbations acting on precise time tranfer applicat...
Global navigation satellite systems (GNSSs) have revolutionised positioning, navigation, and timing,...
Positioning error components related to tropospheric and ionospheric delays are caused by the atmosp...
The Global Navigation Satellite System (GNSS) signal experiences delays caused by the atmosphere, le...
Based on two-frequency phase measurements of GNSS signals by ground-based receivers, zenith delays o...
In GNSS analysis, the tropospheric delay is parameterized by applying mapping functions (MFs), zenit...
AbstractThe tropospheric delay is a serious error source for positioning using Global Navigation Sat...
Whether in cars, smartphones, watches or fitness-trackers - the use of Global Navigation Satellite S...
Until now, RTK (real-time kinematic) and NRTK (Network-based RTK) have been the most popular cm-leve...
Global positioning system (GPS) satellites operate at 1.2 and 1.5 GHz. The GPS signals travel throug...
This work investigates the positioning error of five Nigeria GNSS network stations during the geomag...