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Real-time satellite clock error estimation system and method based on GNSS high precision system

A satellite clock error, high-precision technology, applied in the field of satellite technology navigation, can solve problems such as the inability to meet real-time precise positioning, and achieve the effect of satisfying real-time high-precision positioning and improving accuracy

Inactive Publication Date: 2018-03-02
QIANXUN SPATIAL INTELLIGENCE INC
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Problems solved by technology

The unstable part of the satellite clock still changes rapidly in the present invention, and the accuracy of the satellite clock error for precise single-point positioning is much higher than the clock error accuracy (2.5ns) provided by the current real-time broadcast ephemeris. The accuracy of the fast real-time clock difference is also about 1.5ns, which still cannot meet the technical problems of real-time precise positioning and other technical problems. A system and method for real-time estimation of satellite clock difference based on GNSS high-precision augmentation system are proposed.

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  • Real-time satellite clock error estimation system and method based on GNSS high precision system

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[0031] The invention provides a satellite clock error real-time estimation system and method based on the GNSS high-precision augmentation system, which solves the key problem of how to conduct real-time estimation and short-term forecast of satellite clock parameters in the research of time synchronization and fast positioning, and can provide high Frequency updated high-precision satellite clock error, improve the clock error accuracy in the broadcast SSR (State-Space Representation, state space representation information) correction information, thereby improving the accuracy of terminal positioning services, satisfying time synchronization and real-time high-precision positioning for clock error demand. Hereinafter, the present invention will be further described in conjunction with the drawings and embodiments.

[0032] figure 1 and figure 2 They are the frame diagram of the real-time satellite clock error estimation system based on the GNSS high-precision augmentation...

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Abstract

The invention provides a real-time satellite clock error estimation system and method based on a GNSS high precision system. According to the method, data is received by a data reception and reading subsystem and is read in real time, and the data is stored and transmitted to a real-time data pre-processing subsystem; the received data is pre-processed by the real-time data pre-processing subsystem to generate observation data after quality inspection; the observation data after quality inspection is utilized by a real-time precise satellite clock error resolution subsystem to resolve the satellite clock error in real time; after the satellite clock error acquired through real-time resolution is acquired by a real-time precise satellite clock error short-period forecast subsystem, a high-precision short period forecast model is utilized to carry out real-time clock error forecast; the real-time clock error forecast is acquired by a clock error product and process file generation subsystem, the correction information of the broadcast clock error is calculated, and clock error products and the process file are stored in real time. The method is advantaged in that precision of the satellite clock error and the update frequency of the satellite clock error can be improved, and real-time high-precision positioning requirements are satisfied.

Description

technical field [0001] The invention relates to the field of satellite technology navigation, in particular to a system and method for real-time estimation of satellite clock error based on a GNSS high-precision system. Background technique [0002] In terms of GNSS (Global Navigation Satellite System, Global Satellite Positioning System) satellite clock error acquisition, the IGS (International GNSS Service, International GNSS Service Organization) analysis center calculates satellite orbits through global IGS station data, and at the same time estimates station coordinates, fuzzy degree, tropospheric delay, and receiver clock error. When estimating the satellite clock error, the orbital parameters, station coordinates, ambiguity parameters, and tropospheric delay parameters are all treated as known values, and only the receiver clock error and satellite clock error are estimated. Difference. The accuracy of ex post satellite clock error estimated by this method can reach ...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01S19/02
CPCG01S19/02
Inventor 熊超崔红正周培源年劲飞
Owner QIANXUN SPATIAL INTELLIGENCE INC
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