Method for linear alignment of large azimuth misalignment angle

A misalignment angle, large azimuth technology, applied in the field of large azimuth misalignment angle linear alignment, can solve the problem of uneven transition and so on

Active Publication Date: 2017-06-13
南京喂啊游通信科技有限公司
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  • Abstract
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  • Application Information

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Problems solved by technology

[0006] The technical solution of the present invention is to overcome the problem of unstable transition in the switching between rough alignment and fine alignment models in the prior art, and provide a new type of linear alignment method with large azimuth misalignment angle, so that the covariance matrix of the system error can be Transfer directly from the coarse alignment model to the fine alignment model to achieve a smooth model switching process and improve the fine alignment convergence process

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  • Method for linear alignment of large azimuth misalignment angle
  • Method for linear alignment of large azimuth misalignment angle
  • Method for linear alignment of large azimuth misalignment angle

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Embodiment Construction

[0029] Such as figure 1 Shown, the present invention is concretely realized as follows:

[0030] (1) Coarse alignment process

[0031] Define the system state variables as:

[0032]

[0033] Among them, L, λ and h are latitude, longitude and height respectively, δV E , δV N and δV U are the speed errors in the east direction, north direction and sky direction respectively, θ, γ and are pitch, roll and yaw angle errors, respectively. In addition, 'x' represents a calculated value of an arbitrary variable x, and 'δx' represents an error of an arbitrary variable x.

[0034] Speed ​​error equation:

[0035]

[0036] in, and are the projection of the angular rate of the earth's rotation and the angular rate of the calculation coordinate system relative to the earth coordinate system in the calculation coordinate system, f c is the projection of the real specific force on the calculation coordinate system, are the zero bias of the accelerometer in the three dire...

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Abstract

The invention relates to a method for linear alignment of a large azimuth misalignment angle. The method comprises the following steps of (1) according to a state equation and an observing equation of a coarse alignment system, utilizing GPS (global positioning system) observing information to realize the coarse alignment process through linear Kalman filtering, until the heading error angle meets the small-angle threshold value condition; (2) reserving a system covariance matrix in convergence of coarse alignment, and using as the initial condition of fine alignment process; (3) continuing to use the system state variable of the coarse alignment, the position and speed error equations and the observing equations, using an attitude error equation, and using the stored covariance matrix as the initial condition to perform fine alignment, until the system is converged to the estimated level. The method has the advantages that the covariance matrix of the system error is directly transferred from the coarse alignment model to the fine alignment model, the stable model switching process is realized, and the convergence process of fine alignment is improved.

Description

technical field [0001] The invention relates to a linear alignment method with a large azimuth misalignment angle, belonging to the technical field of inertial navigation. Background technique [0002] Initial alignment is a key technology of inertial navigation and one of the key technologies of INS / GNSS integrated navigation. In the MEMS-INS / GNSS integrated navigation system, due to the limitations of MEMS devices, especially the gyroscope, it is impossible to initialize the azimuth misalignment angle through self-alignment, resulting in a large azimuth misalignment angle problem. One of the solutions The method is to directly align the moving base. [0003] Establishing accurate INS error propagation equations and adopting appropriate filtering techniques are the main issues for initial alignment. In the case of a large azimuth misalignment angle, the moving base alignment model is essentially nonlinear, and nonlinear filtering is not suitable for engineering applicatio...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01C25/00
Inventor 王可东
Owner 南京喂啊游通信科技有限公司
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