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A Precise Orbit Determination Method for Geosynchronous Satellites Adapting to Orbit Maneuvering

A geosynchronous and precise orbit determination technology, applied in the direction of integrated navigator, etc., can solve the problems such as difficult to guarantee the orbit accuracy, and achieve the effect of improving the accuracy of orbit determination and prediction

Active Publication Date: 2015-09-23
CHINA XIAN SATELLITE CONTROL CENT
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Problems solved by technology

[0003] The purpose of the present invention is: in order to solve the problem that it is difficult to ensure the orbit accuracy of orbit determination and orbit prediction by conventional methods during the orbit maintenance of geosynchronous satellites, the present invention provides a set of practical geosynchronous satellite precise orbit determination methods suitable for orbit maneuvering

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  • A Precise Orbit Determination Method for Geosynchronous Satellites Adapting to Orbit Maneuvering
  • A Precise Orbit Determination Method for Geosynchronous Satellites Adapting to Orbit Maneuvering
  • A Precise Orbit Determination Method for Geosynchronous Satellites Adapting to Orbit Maneuvering

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Embodiment Construction

[0023] Taking the multi-station ranging data processing of Beidou-1 satellite from December 12th to 13th, 2006 as an example, the steps and application effects of this method will be described below. Among them, the data on the 13th included the east-west maneuver of the satellite.

[0024] The geostationary satellite precise orbit determination method adapted to orbit maneuvering in the present embodiment comprises the following steps:

[0025] Step 1: Obtain the installation parameters of the onboard thruster of Beidou-1 satellite, the attitude of the satellite during the maneuver, the combination mode of the onboard thruster, the magnitude of the thrust, the working pulse period, the pulse width, and the number of times the nozzle works, etc., and prepare the initial state of the satellite And the orbit determination data file, the data is about one day before the control and about 20 minutes of the control period data, and the orbit maneuver acceleration in the control per...

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Abstract

The invention discloses a precision orbit determination method for a geostationary satellite adapting to orbital maneuver and belongs to the field of space metering and controlling. The method comprises the followings: firstly, maneuvering acceleration is calculated; observed quantity Rho i and observed residual error sequences delta Rho i and j are calculated; estimation to public system error Rho b is performed; the public system error Rho b is deducted from the observed residual error sequences delta Rho i and j, so as to obtain systematic deviations of all observation stations; the Rho b is deducted from the observed quantity, then orbit improvement is performed again on observation data of which system errors are deducted, and calculating is performed again on the improved initial state until orbit convergence, and precision orbit determination for the geostationary satellite is accomplished. The precision orbit determination method provided by the invention has the benefits as follows: difficulty in precision orbit determination caused by pushing force produced by air blast of an engine on a GEO satellite during orbital maneuver can be overcome, meanwhile, public systematic error appraisement and an all-station deviation adapting iteration eliminating method are adopted for solving the problem that systematic errors such as satellite clock errors and time delay of all observation station equipment are hard to separate is solved, and the orbit determination forecast accuracy of the GEO satellite during the orbital maneuver can be effectively improved.

Description

technical field [0001] The patent of the invention belongs to the field of aerospace measurement and control, and relates to a precise orbit determination method for a geosynchronous satellite (GEO) adapted to orbital maneuvering. Background technique [0002] According to the national aerospace development plan, my country's Beidou-2 satellite navigation system uses the GEO / IGSO / MEO mixed constellation for passive navigation and positioning. For passive positioning, orbital maneuvering means that the satellite is temporarily invalid. Since the GEO satellite control system regularly unloads momentum wheels and frequent orbital maneuvering, GEO satellites become key satellites that affect system navigation performance. GEO satellite orbit maneuvers are frequent, ground observation geometry is poor, and system errors such as satellite clock error and equipment time delay are difficult to separate, making GEO satellite precise orbit determination and forecasting technology acro...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01C21/24
Inventor 王家松何雨帆王彦荣叶修松李杰李超陈俊收薛嘉朱俊叶楠王丹
Owner CHINA XIAN SATELLITE CONTROL CENT
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