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Time transfer with BDS-3 signals: CV, PPP and IPPP

Zhiling Ren, Hang Gong, Daqian Lyu, Jing Peng, Yu Guo, Guangfu Sun

2023Measurement Science and Technology11 citationsDOI

Abstract

Abstract The third phase of BeiDou navigation satellite system (BDS-3) was officially commissioned on 31 July 2020. In this study, we make a comprehensive evaluation of BDS-3 time transfer with the B1I, B3I, B1C and B2a measurements. The multi-path (MP) errors and noises of different BDS-3 ranging signals are analyzed to illustrate characteristic of the code observations firstly. Then dual-frequency ionosphere-free linear combinations of BDS-3 B1I&B3I and B1C&B2a measurements are used to achieve time transfer. Using Multi-GNSS Experiment station observations, we evaluate the performance of BDS-3 time transfer with common-view (CV), precise point positioning (PPP) and integer ambiguity PPP (IPPP) techniques. Analysis results show that BDS-3 B1C&B2a CV time transfer links show a better performance than GPS L1P&L2P links, whereas BDS-3 B1I&B3I links are worse than GPS links. For the PPP time transfer, GPS links show the best performance, followed by BDS-3 B1C&B2a links and B1I&B3I links. Furthermore, frequency stability of BDS-3 IPPP time transfer is more stable than PPP solutions at the long average interval time. And the long-term frequency stability of BDS-3 IPPP is comparable with GPS IPPP.

Topics & Concepts

Global Positioning SystemPrecise Point PositioningGNSS applicationsTime transferComputer scienceTransfer (computing)Phase (matter)Integer (computer science)Ambiguity resolutionGeodesyBeiDou Navigation Satellite SystemStability (learning theory)Satellite systemTelecommunicationsGeographyPhysicsParallel computingMachine learningQuantum mechanicsProgramming languageGNSS positioning and interferenceAdvanced Frequency and Time StandardsGeophysics and Gravity Measurements