Finite time observer-based output feedback control of MEMS gyroscopes with input saturation

Rui Zhang; Bin Xu; Peng Shi

doi:10.1002/rnc.6018

Finite time observer-based output feedback control of MEMS gyroscopes with input saturation

Rui Zhang, Bin Xu, Peng Shi

School of Automation

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

The finite time observer-based output feedback control of MEMS gyroscopes with input saturation is addressed in this article. For the unmeasured speed signal, neural network (NN) learning-based finite time observer is designed to observe the speed signal in finite time, where the adaptive NN is employed to approximate the nonlinear dynamics with system uncertainties. Considering the input saturation, an auxiliary system is introduced to design the anti-saturation compensator, such that the actual controller can escape saturation with less time and faster convergence can be achieved. Then the anti-saturation compensator further works together with output feedback controller to control the dynamics of MEMS gyroscopes. Simulation results are given to verify the faster speed observation and faster convergence of the proposed controller under input saturation.

Original language	English
Pages (from-to)	4300-4317
Number of pages	18
Journal	International Journal of Robust and Nonlinear Control
Volume	32
Issue number	7
DOIs	https://doi.org/10.1002/rnc.6018
State	Published - 10 May 2022

Keywords

input saturation
MEMS gyroscopes
NN learning-based finite time observer
output feedback control

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10.1002/rnc.6018

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title = "Finite time observer-based output feedback control of MEMS gyroscopes with input saturation",

abstract = "The finite time observer-based output feedback control of MEMS gyroscopes with input saturation is addressed in this article. For the unmeasured speed signal, neural network (NN) learning-based finite time observer is designed to observe the speed signal in finite time, where the adaptive NN is employed to approximate the nonlinear dynamics with system uncertainties. Considering the input saturation, an auxiliary system is introduced to design the anti-saturation compensator, such that the actual controller can escape saturation with less time and faster convergence can be achieved. Then the anti-saturation compensator further works together with output feedback controller to control the dynamics of MEMS gyroscopes. Simulation results are given to verify the faster speed observation and faster convergence of the proposed controller under input saturation.",

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AU - Shi, Peng

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N2 - The finite time observer-based output feedback control of MEMS gyroscopes with input saturation is addressed in this article. For the unmeasured speed signal, neural network (NN) learning-based finite time observer is designed to observe the speed signal in finite time, where the adaptive NN is employed to approximate the nonlinear dynamics with system uncertainties. Considering the input saturation, an auxiliary system is introduced to design the anti-saturation compensator, such that the actual controller can escape saturation with less time and faster convergence can be achieved. Then the anti-saturation compensator further works together with output feedback controller to control the dynamics of MEMS gyroscopes. Simulation results are given to verify the faster speed observation and faster convergence of the proposed controller under input saturation.

AB - The finite time observer-based output feedback control of MEMS gyroscopes with input saturation is addressed in this article. For the unmeasured speed signal, neural network (NN) learning-based finite time observer is designed to observe the speed signal in finite time, where the adaptive NN is employed to approximate the nonlinear dynamics with system uncertainties. Considering the input saturation, an auxiliary system is introduced to design the anti-saturation compensator, such that the actual controller can escape saturation with less time and faster convergence can be achieved. Then the anti-saturation compensator further works together with output feedback controller to control the dynamics of MEMS gyroscopes. Simulation results are given to verify the faster speed observation and faster convergence of the proposed controller under input saturation.

KW - input saturation

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Finite time observer-based output feedback control of MEMS gyroscopes with input saturation

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