Stabilization of a non-homogeneous rotating body-beam system with the torque and nonlinear distributed controls

Yaping Guo; Junmin Wang

doi:10.1007/s11424-017-5235-4

Stabilization of a non-homogeneous rotating body-beam system with the torque and nonlinear distributed controls

Yaping Guo^*, Junmin Wang

^*Corresponding author for this work

School of Mathematics and Statistics

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

6 Citations (Scopus)

Abstract

This paper considers the stabilization of non-homogeneous rotating body-beam system with the torque and nonlinear distributed controls. To stabilize the system, the authors propose the torque and nonlinear distributed controls applied on the disk and flexible beam respectively. As long as the angular velocity of the disk does not exceed the square root of the first eigenvalue of the related self-adjoint positive definite operator, the authors show that the torque and nonlinear distributed control laws suppress the system vibrations, in the sense that the beam vibrations are forced to decay exponentially to zero and the body rotates with a desired angular velocity.

Original language	English
Pages (from-to)	616-626
Number of pages	11
Journal	Journal of Systems Science and Complexity
Volume	30
Issue number	3
DOIs	https://doi.org/10.1007/s11424-017-5235-4
Publication status	Published - 1 Jun 2017

Keywords

Non-homogeneous
nonlinear distributed control
stabilization

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10.1007/s11424-017-5235-4

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title = "Stabilization of a non-homogeneous rotating body-beam system with the torque and nonlinear distributed controls",

abstract = "This paper considers the stabilization of non-homogeneous rotating body-beam system with the torque and nonlinear distributed controls. To stabilize the system, the authors propose the torque and nonlinear distributed controls applied on the disk and flexible beam respectively. As long as the angular velocity of the disk does not exceed the square root of the first eigenvalue of the related self-adjoint positive definite operator, the authors show that the torque and nonlinear distributed control laws suppress the system vibrations, in the sense that the beam vibrations are forced to decay exponentially to zero and the body rotates with a desired angular velocity.",

keywords = "Non-homogeneous, nonlinear distributed control, stabilization",

author = "Yaping Guo and Junmin Wang",

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AU - Wang, Junmin

PY - 2017/6/1

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N2 - This paper considers the stabilization of non-homogeneous rotating body-beam system with the torque and nonlinear distributed controls. To stabilize the system, the authors propose the torque and nonlinear distributed controls applied on the disk and flexible beam respectively. As long as the angular velocity of the disk does not exceed the square root of the first eigenvalue of the related self-adjoint positive definite operator, the authors show that the torque and nonlinear distributed control laws suppress the system vibrations, in the sense that the beam vibrations are forced to decay exponentially to zero and the body rotates with a desired angular velocity.

AB - This paper considers the stabilization of non-homogeneous rotating body-beam system with the torque and nonlinear distributed controls. To stabilize the system, the authors propose the torque and nonlinear distributed controls applied on the disk and flexible beam respectively. As long as the angular velocity of the disk does not exceed the square root of the first eigenvalue of the related self-adjoint positive definite operator, the authors show that the torque and nonlinear distributed control laws suppress the system vibrations, in the sense that the beam vibrations are forced to decay exponentially to zero and the body rotates with a desired angular velocity.

KW - Non-homogeneous

KW - nonlinear distributed control

KW - stabilization

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ER -

Stabilization of a non-homogeneous rotating body-beam system with the torque and nonlinear distributed controls

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Keywords

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