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Attitude angle direct resolving method based on global position system (GPS) carrier wave double-difference equation

An attitude angle and carrier technology, which is used in radio wave measurement systems, satellite radio beacon positioning systems, measurement devices, etc., can solve the problems of estimation error, lack of accuracy, affecting the real-time performance of attitude measurement, etc.

Inactive Publication Date: 2013-03-27
HARBIN ENG UNIV
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Problems solved by technology

[0013] 1. When using the mathematical estimation method to estimate the attitude matrix, the attitude angle result is not directly obtained, and multi-epoch information collection is required to complete the final attitude angle calculation. This introduces further estimation errors on the one hand, and on the other hand It also affects the real-time performance of attitude measurement
[0014] 2. Using the direct measurement method to measure the attitude angle does not require the coordinates of the baseline carrier system, nor does it need to calculate the attitude matrix, but the z-axis component of the carrier coordinates of all antenna baselines is zero, and the matrix formed by the coordinates is not of rank, which will lead to attitude results Unreliable, far less accurate than mathematical estimation methods

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  • Attitude angle direct resolving method based on global position system (GPS) carrier wave double-difference equation
  • Attitude angle direct resolving method based on global position system (GPS) carrier wave double-difference equation
  • Attitude angle direct resolving method based on global position system (GPS) carrier wave double-difference equation

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[0070] The present invention is described in detail below in conjunction with accompanying drawing example:

[0071] 1. The implementation process of the attitude angle direct solution algorithm

[0072] (1) Establish the relationship between the baseline vector and carrier observations

[0073] GPS carrier three-dimensional attitude measurement generally uses three receiving antennas to form two baseline vectors, so the attitude measurement system involved in this patent is composed of three antennas, of which antenna No. 0 is set as the reference antenna, and antenna No. 1 and No. 2 are slave antennas. Assuming that three antennas track M satellites at the same time, for any one of the satellites i, the carrier observation equation of the receiver to the satellite can be established:

[0074]

[0075] In the formula, Indicates the carrier observation amount of the i-th star received by the antenna n; λ indicates the carrier wavelength, unit: m; Indicates the actual ...

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Abstract

The invention provides an attitude angle direct resolving method based on a global position system (GPS) carrier wave double-difference equation. The attitude angle direct resolving method mainly comprises building a carrier wave double-difference equation, guiding carrier attitude information into the carrier wave double-difference equation and solving an attitude angle by utilizing nonlinear least squares. The attitude angle direct resolving method can effectively reduce or eliminate short base line public errors, achieves high-precision resolving, can directly resolve the attitude angle by leading the attitude angle information into the double-difference equation, greatly reduces intermediate evaluated errors, evaluates the attitude angle by utilizing the nonlinear least squares method, improves system resolving speed, finishes real-time resolving of the attitude information and is more suitable for real-time carrier attitude measuring.

Description

technical field [0001] The invention relates to a real-time attitude measurement method of a large carrier, in particular to a method for directly solving the attitude angle based on the GPS carrier double-difference equation. Background technique [0002] In order to meet the attitude information requirements of different application platforms, a large number of attitude measurement devices have come out, such as star sensors, horizon trackers, sun sensors, and magnetometers for space carrier attitude measurement; Or the magnetic compass and electromagnetic compass that provide heading for underwater vehicles; the inertial devices that provide attitude information for various aircraft, land transportation equipment, ships, submersibles, and space carriers, etc. Among them, the star sensor is easily affected by the weather, terrain or other objective factors, and cannot give the attitude or orientation value in real time; the inertial navigation equipment is complex in struc...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01S19/54
Inventor 程建华王晶荣文婷陈子谦陈岱岱陈世同吴磊罗彬
Owner HARBIN ENG UNIV
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