Qihui Wei scite author profile

To maximize the usage of limited transmission power and wireless spectrum, more communication satellites are adopting precise space–ground beam-forming, which poses a rigorous positioning and timing requirement of the satellite. To fulfill this requirement, a space-borne global navigation satellite system (GNSS) timing receiver with a disciplined high-performance clock is preferable. The space-borne GNSS timing receiver moves with the satellite, in contrast to its stationary counterpart on ground, making it tricky in its positioning algorithm design. Despite abundant existing positioning algorithms, there is a lack of dedicated work that systematically describes the delicate aspects of a space-borne GNSS timing receiver. Based on the experimental work of the LING QIAO (NORAD ID:40136) communication satellite’s GNSS receiver, we propose a fine-tuned positioning algorithm for space-borne GNSS timing receivers. Specifically, the proposed algorithm includes: (1) a filtering architecture that separates the estimation of satellite position and velocity from other unknowns, which allows for a first estimation of satellite position and velocity incorporating any variation of orbit dynamics; (2) a two-threshold robust cubature Kalman filter to counteract the adverse influence of measurement outliers on positioning quality; (3) Reynolds averaging inspired clock and frequency error estimation. Hardware emulation test results show that the proposed algorithm has a performance with a 3D positioning RMS error of 1.2 m, 3D velocity RMS error of 0.02 m/s and a pulse per second (PPS) RMS error of 11.8ns. Simulations with MATLAB show that it can effectively detect and dispose outliers, and further on outperforms other algorithms in comparison.

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Ray-tracing models and techniques for coverage prediction in urban environments

Wei

Gong²,

Gao³

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Ray-tracing algorithms, based on G O (Geometrical Optics) a n d GTD/UTD (Geometrical Theory of DiffractionNniform T h e o r y of Diffraction) have been developed to predict characteristics of wireless propagation channel for u r b a n microcellular environments. Severalproblems on how to implement these algorithms for coverage prediction a r e presented a n d some corresponding measures a n d proposals are also p u t forward in this paper.

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Space-borne GNSS Receiver Autonomous Integrity Monitoring by Deviations of Semi-major Axis

Wang

Chen

Wei

et al. 2021

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Time-of-Arrival Estimation for Integrated Satellite Navigation and Communication Signals

Wei

Chen

Jiang

et al. 2023

IEEE Trans. Wireless Commun.

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Qihui Wei

Exploring Implicit Pilots for Precise Estimation of LEO Satellite Downlink Doppler Frequency

A Fine-Tuned Positioning Algorithm for Space-Borne GNSS Timing Receivers

Ray-tracing models and techniques for coverage prediction in urban environments

Space-borne GNSS Receiver Autonomous Integrity Monitoring by Deviations of Semi-major Axis

Time-of-Arrival Estimation for Integrated Satellite Navigation and Communication Signals

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