Robust Velocity and Load Observer for a General Noisy Rotating Machine

Carlos Aguilar-Ibanez; Manuel A. Jimenez-Lizarraga; Isaac Gandarilla-Esparza; Javier Moreno-Valenzuela; Belem Saldivar; Miguel S. Suarez-Castanon; Jose de Jesus Rubio

doi:10.3390/machines10111009

Robust Velocity and Load Observer for a General Noisy Rotating Machine

Carlos Aguilar-Ibanez, Manuel A. Jimenez-Lizarraga, Isaac Gandarilla-Esparza, Javier Moreno-Valenzuela, Belem Saldivar, Miguel S. Suarez-Castanon, Jose de Jesus Rubio

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

Abstract

This paper is focused on the design of a nonlinear observer for a rotatory machine with noise-affected output. It is assumed that the system is subject to bounded perturbations, and the original linear model of the machine is reformulated as a nonlinear system to include the desired signals to be estimated, namely, the velocity and load torque. The proposed observer leverages the so-called algebraic state-dependent Riccati equation to provide a robust estimation. Lyapunov analysis guarantees the convergence of the estimation error to a “ (Formula presented.) zone”. The proposed observer’s effectiveness is assessed through convincing numerical simulations and real-time experiments.

Original language	English
Article number	1009
Journal	Machines
Volume	10
Issue number	11
DOIs	https://doi.org/10.3390/machines10111009
State	Published - Nov 2022

Keywords

Riccati equation
electrical machine
nonlinear observer
rotatory machine

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10.3390/machines10111009

Cite this

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title = "Robust Velocity and Load Observer for a General Noisy Rotating Machine",

abstract = "This paper is focused on the design of a nonlinear observer for a rotatory machine with noise-affected output. It is assumed that the system is subject to bounded perturbations, and the original linear model of the machine is reformulated as a nonlinear system to include the desired signals to be estimated, namely, the velocity and load torque. The proposed observer leverages the so-called algebraic state-dependent Riccati equation to provide a robust estimation. Lyapunov analysis guarantees the convergence of the estimation error to a “ (Formula presented.) zone”. The proposed observer{\textquoteright}s effectiveness is assessed through convincing numerical simulations and real-time experiments.",

keywords = "Riccati equation, electrical machine, nonlinear observer, rotatory machine",

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AU - Aguilar-Ibanez, Carlos

AU - Jimenez-Lizarraga, Manuel A.

AU - Gandarilla-Esparza, Isaac

AU - Moreno-Valenzuela, Javier

AU - Saldivar, Belem

AU - Suarez-Castanon, Miguel S.

AU - Rubio, Jose de Jesus

PY - 2022/11

Y1 - 2022/11

N2 - This paper is focused on the design of a nonlinear observer for a rotatory machine with noise-affected output. It is assumed that the system is subject to bounded perturbations, and the original linear model of the machine is reformulated as a nonlinear system to include the desired signals to be estimated, namely, the velocity and load torque. The proposed observer leverages the so-called algebraic state-dependent Riccati equation to provide a robust estimation. Lyapunov analysis guarantees the convergence of the estimation error to a “ (Formula presented.) zone”. The proposed observer’s effectiveness is assessed through convincing numerical simulations and real-time experiments.

AB - This paper is focused on the design of a nonlinear observer for a rotatory machine with noise-affected output. It is assumed that the system is subject to bounded perturbations, and the original linear model of the machine is reformulated as a nonlinear system to include the desired signals to be estimated, namely, the velocity and load torque. The proposed observer leverages the so-called algebraic state-dependent Riccati equation to provide a robust estimation. Lyapunov analysis guarantees the convergence of the estimation error to a “ (Formula presented.) zone”. The proposed observer’s effectiveness is assessed through convincing numerical simulations and real-time experiments.

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Robust Velocity and Load Observer for a General Noisy Rotating Machine

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