Model-free self-adaptive control method for attitude of assembled spacecraft

A model-free self-adaptive and control method technology, applied in attitude control, non-electric variable control, control/regulation system, etc., can solve the problems that traditional control methods are difficult to use effectively, and combined spacecraft are difficult to accurately model

Inactive Publication Date: 2016-08-31
SHANGHAI AEROSPACE CONTROL TECH INST
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Problems solved by technology

[0004] The purpose of the present invention is to provide a model-free adaptive control method for the attitude of an assembled spacecraft, which overcomes the problems that the assembled spacecraft formed by capturing non-cooperative targets in space is difficult to accurately model and the traditional control method is difficult to effectively use, and establishes a method for The dynamic equivalent linearization model of the general time-discrete nonlinear system, aiming at the unknown variables in the dynamic equivalent linearization model, ad

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  • Model-free self-adaptive control method for attitude of assembled spacecraft
  • Model-free self-adaptive control method for attitude of assembled spacecraft
  • Model-free self-adaptive control method for attitude of assembled spacecraft

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Embodiment Construction

[0025] The present invention will be further elaborated below by describing a preferred specific embodiment in detail in conjunction with the accompanying drawings.

[0026] A model-free adaptive control method for an assembled spacecraft attitude, comprising the following steps:

[0027] S1, aiming at the attitude motion of a general combined spacecraft, establish a full-format dynamic equivalent linear data model, and determine the pseudo-gradient vector form in the model;

[0028] S2, for the pseudo-gradient vector in the full-format dynamic equivalent linear data model, design a parameter adaptive estimation equation to estimate the pseudo-gradient vector;

[0029] In S3, an error criterion function is established according to the dynamic equivalent linear data model, and a weighted one-step forward controller is designed by minimizing the error criterion function.

[0030] S1, assuming that an axial attitude control problem of a combined spacecraft is taken as an example...

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Abstract

The invention discloses a model-free self-adaptive control method for an attitude of an assembled spacecraft. The method comprises the following steps: S1) establishing a full-format dynamic equivalent linear data model for an attitude movement of a general assembled spacecraft; S2) designing a parameter self-adaptive estimating equation and estimating a pseudo gradient for the pseudo gradient in the full-format dynamic equivalent linear data model; and S3) establishing an error criterion function according to the dynamic equivalent linear data model, and designing a weighting one-step forward controller through a minimizing error criterion function. The dynamic equivalent linear model is established for a general discrete time nonlinear system, and a modified projection algorithm is adopted for performing online parameter estimation for the unknown variable in the dynamic equivalent linear model, so that the attitude determination accuracy of a flexible spacecraft movement simulator is increased.

Description

technical field [0001] The invention relates to the field of combined spacecraft control methods, in particular to a model-free adaptive control method for combined spacecraft attitude. Background technique [0002] With the development of space missions, the task requirements for capturing non-cooperative targets in space are getting higher and higher. After the spacecraft captures the non-cooperative target, it forms a new combined spacecraft with the target. Since the capture operation will produce shock disturbances to the spacecraft, it is necessary to stabilize the combined spacecraft formed after capture. [0003] Since the model parameters of non-cooperative targets are not available, it is difficult to accurately model the combined spacecraft formed after capture. Some traditional control methods can solve control problems with uncertain model parameters, but these control methods need to know the nominal values ​​of model parameters or the upper and lower bounds ...

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Application Information

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IPC IPC(8): G05D1/08
CPCG05D1/0816
Inventor 贺亮宋婷阳光孙俊师鹏谢冉
Owner SHANGHAI AEROSPACE CONTROL TECH INST
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