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Micro electromechanical system gyroscope fuzzy self-adaptive control system based on fuzzy compensation

A micro-electro-mechanical gyroscope and fuzzy self-adaptive technology, applied in the direction of self-adaptive control, general control system, control/adjustment system, etc., can solve the problems of weight reduction, power consumption reduction, micro-electro-mechanical gyroscope size reduction, etc., to reduce measurement error, reduced chattering, and good control effects

Inactive Publication Date: 2012-09-19
HOHAI UNIV CHANGZHOU
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  • Abstract
  • Description
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Problems solved by technology

Compared with the traditional inertial rotor gyroscope, the micro-electromechanical gyroscope has greatly reduced volume, greatly reduced mass, greatly reduced power consumption, and the circuit can be integrated in the mechanical structure. It has high reliability, strong carrying capacity, and low price. It is easy to digitize and intelligentize, and has a large measurement range, which is unmatched by traditional gyroscopes

Method used

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  • Micro electromechanical system gyroscope fuzzy self-adaptive control system based on fuzzy compensation
  • Micro electromechanical system gyroscope fuzzy self-adaptive control system based on fuzzy compensation
  • Micro electromechanical system gyroscope fuzzy self-adaptive control system based on fuzzy compensation

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Embodiment Construction

[0026] The technical solutions of the present invention will be described in detail below, but the protection scope of the present invention is not limited to the embodiments.

[0027] Such as figure 1 As shown, a micro-electro-mechanical gyroscope fuzzy adaptive control system based on fuzzy compensation is characterized in that it includes a micro-electro-mechanical gyroscope system and a control system, and the control system includes a reference model, a sliding mode adaptive controller and a fuzzy control The fuzzy controller includes a controller body, a fuzzy rule module, a parameter adaptive law module and a robust fuzzy adaptive control law module,

[0028] The output of the reference model is ;

[0029] The input and output of the MEMS gyroscope system are respectively with ;

[0030] The input and output of the sliding mode adaptive controller are respectively with ;

[0031] The input and output of the fuzzy rule module are respectively with ;

[...

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Abstract

The invention discloses a micro electromechanical system gyroscope fuzzy self-adaptive control system based on fuzzy compensation. The micro electromechanical system gyroscope fuzzy self-adaptive control system comprises a micro electromechanical system gyroscope system and a control system. The control system comprises a reference model, a sliding framework self-adaptive controller and a fuzzy controller. The fuzzy controller comprises a controller main body, a fuzzy rule module, a parameter self-adaptive rule module and a robust fuzzy self-adaptive control rule module. The micro electromechanical system gyroscope fuzzy self-adaptive control system adopts an advanced control method to control the micro electromechanical system gyroscope, reduces effects of external disturbance on track tracing, especially effects of uncertain disturbance, reduces measurement errors, and guarantees that the micro electromechanical system gyroscope can work stably and efficiently.

Description

technical field [0001] The invention belongs to the field of intelligent control, and in particular relates to a fuzzy self-adaptive control system of a micro-electromechanical gyroscope based on fuzzy compensation. Background technique [0002] Fuzzy control is an important branch of intelligent control. Fuzzy electronic technology is the core technology of the 21st century and has been widely used in the electromechanical industry. The development direction of fuzzy control mainly includes Fuzzy-PID compound control, adaptive fuzzy control, expert fuzzy control, neural fuzzy control and multivariable fuzzy control. In essence, fuzzy control should be a branch of nonlinear control, and there are mainly two different forms: one is direct adaptive fuzzy control, that is, the fuzzy controller is directly designed according to the deviation between the actual system performance and the ideal performance; The other is indirect adaptive fuzzy control, that is, the model of the c...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B13/04
Inventor 费峻涛周健张生磊
Owner HOHAI UNIV CHANGZHOU
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