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Analysis of BDS/GPS Signals’ Characteristics and Navigation Accuracy for a Geostationary Satellite

Meng Wang, Tao Shan, Wanwei Zhang, Hao Huan

2021Remote Sensing24 citationsDOIOpen Access PDF

Abstract

The utilization of Global Navigation Satellite System (GNSS) is becoming an attractive navigation approach for geostationary orbit (GEO) satellites. A high-sensitivity receiver compatible with Global Position System (GPS) developed by the United States and BeiDou Navigation Satellite System (BDS) developed by China has been used in a GEO satellite named TJS-5 to demonstrate feasibility of real-time navigation. According to inflight data, the GNSS signal characteristics including availability, position dilution of precision (PDOP), carrier-to-noise ratio (C/N0), observations quantity and accuracy are analyzed. The mean number of GPS and GPS + BDS satellites tracked are 7.4 and 11.7 and the mean PDOP of GPS and GPS + BDS are 10.24 and 3.91, respectively. The use of BDS significantly increases the number of available navigation satellites and improves the PDOP. The number of observations with respect to C/N0 is illustrated in detail. The standard deviation of the pseudorange noises are less than 4 m, and the corresponding carrier phase noises are mostly less than 8 mm. We present the navigation performance using only GPS observations and GPS + BDS observations combination at different weights through comparisons with the precision reference orbits. When GPS combined with BDS observations, the root mean square (RMS) of the single-epoch least square position accuracy can improve from 32.1 m to 16.5 m and the corresponding velocity accuracy can improve from 0.238 m/s to 0.165 m/s. The RMS of real-time orbit determination position accuracy is 5.55 m and the corresponding velocity accuracy is 0.697 mm/s when using GPS and BDS combinations. Especially, the position accuracy in x-axis direction reduced from 7.24 m to 4.09 m when combined GPS with BDS observations.

Topics & Concepts

Dilution of precisionGlobal Positioning SystemGeostationary orbitGNSS applicationsGeodesyRemote sensingBeiDou Navigation Satellite SystemGPS signalsSatellite navigationComputer scienceSatellitePseudorangeTime to first fixSatellite systemAssisted GPSGeologyTelecommunicationsEngineeringAerospace engineeringGNSS positioning and interferenceAdvanced Frequency and Time StandardsGeophysics and Gravity Measurements
Analysis of BDS/GPS Signals’ Characteristics and Navigation Accuracy for a Geostationary Satellite | Litcius