Fractional-order adaptive inverse fuzzy sliding mode control method for microgyroscope

A technology of fuzzy sliding mode control and micro gyroscope, applied in the direction of adaptive control, general control system, control/regulation system, etc., can solve the difference in component characteristics and design, easily affected by the external environment, and the tracking effect of gyroscope is not good. Ideal and other issues to achieve the effect of ensuring stability

Active Publication Date: 2018-03-23
HOHAI UNIV CHANGZHOU
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Problems solved by technology

However, there are errors in the production and manufacturing process and are susceptible to temperature, resulting in differences between the characteristics of the components and the design, resulting in a decrease in the performance of the micro gyroscope
In addition, the micro gyroscope is a multi-input multi-output system and the system parameters are uncertain and easily affected by the external environment, which makes the tracki

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  • Fractional-order adaptive inverse fuzzy sliding mode control method for microgyroscope
  • Fractional-order adaptive inverse fuzzy sliding mode control method for microgyroscope
  • Fractional-order adaptive inverse fuzzy sliding mode control method for microgyroscope

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[0068] The present invention will be further described below in conjunction with the accompanying drawings. The following examples are only used to illustrate the technical solution of the present invention more clearly, but not to limit the protection scope of the present invention.

[0069] Such as figure 1 As shown, a fractional-order adaptive inversion fuzzy sliding mode control method for a micro-gyroscope includes the following steps:

[0070] 1. Establishment of the dimensionless dynamic equation mathematical model of the micro-gyroscope system

[0071] A general micromechanical vibrating gyroscope consists of three parts: a suspended mass supported by an elastic material, an electrostatic drive device, and a sensing device. It is simplified as a damped oscillation system composed of a mass block and a spring. For the z-axis micro-gyroscope, it can be considered that the mass block is restricted to move only in the x-y plane, but not along the z-axis, and only rotates...

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Abstract

The invention discloses a fractional-order adaptive inverse fuzzy sliding mode control method for a microgyroscope. The method comprises a step of establishing a dimensionless dynamic equation mathematical model and a reference trajectory model of a microgyroscope system, and a step of constructing an inversion adaption fuzzy sliding mode controller based on a fractional order. According to the method, the real-time tracing of a target by the microgyroscope can be achieved, the robustness of the system is increased, and good performance still can be maintained under the condition of external interference. A fractional order adaptive law is designed based on a fractional order sliding mode surface, a self-adaptive identification method is designed based on a Lyapunov stability criterion, various unknown system parameters of the microgyroscope is estimated in an online way in real time, compared with an integer order, adjustable items are added, and a control effect and a parameter estimation effect are improved. A fuzzy system approaches upper bound values of a parameter uncertainty and an external disturbance total number, through the fuzzy approximation of the upper bound values,switching terms in the sliding mode controller can be continuous, and buffeting can be greatly reduced.

Description

technical field [0001] The invention relates to the technical field of micro gyroscope control, in particular to a fractional-order self-adaptive inversion fuzzy sliding mode control method of a micro gyroscope. Background technique [0002] The micro-gyroscope is a sensor for measuring the angular velocity of inertial navigation and inertial guidance systems. Because it can navigate autonomously in any environment, it has received widespread attention since its appearance, and has been widely used in aerospace, navigation, aviation and military fields. Applications. However, there are errors in the production and manufacturing process and are susceptible to temperature effects, resulting in differences between the characteristics of the components and the design, resulting in a decrease in the performance of the micro gyroscope. In addition, the micro gyroscope is a multi-input multi-output system and the system parameters are uncertain and easily affected by the external ...

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Application Information

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IPC IPC(8): G05B13/04
CPCG05B13/0275G05B13/042
Inventor 梁霄费峻涛李思扬方韵梅
Owner HOHAI UNIV CHANGZHOU
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