Fuzzy-neural network control for a magnetorheological elastomer vibration control system with sinusoidal excitations

Jie Fu; Junfeng Bai; Zening Yang; Zhenyu Dai; Jing Liu; Miao Yu

Fuzzy-neural network control for a magnetorheological elastomer vibration control system with sinusoidal excitations

Jie Fu, Junfeng Bai, Zening Yang, Zhenyu Dai, Jing Liu, Miao Yu

Chongqing University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This paper presents the design method of a fuzzy-neural network controller (FNNC) for a MRE vibration control system with sinusoidal excitations to improve the vibration attenuation. A semi-active FC is designed to obtain the conrolled force based on the feedback signals of the relative displacement and absolute displacement of the isolation structure, then the BP neural network with good learning capability is employed to emulate the dynamic behaviours of output force of fuzzy controller (FC), excitation displacement, velocity and controlled current applied to the coil in MRE isolator. The acceleration responses of the system with FNNC are evaluated by physical experiments, the results indicate that the FNNC could maintain satisfying control effect in the presence sinusoidal excitations and is also more optimal than conventional FC, the reason is that the neural network controller can approximate the nonlinear function relationship among the controlled force, excitation displacement, velocity and controlled current, but the function relationship is only considered as the linear function in conventional FC.

Original language	English
Title of host publication	9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019
Editors	Ayech Benjeddou, Nazih Mechbal, Jean-Francois Deu
Publisher	International Center for Numerical Methods in Engineering
Pages	1281-1290
Number of pages	10
ISBN (Electronic)	9788494919466
State	Published - 2019
Externally published	Yes
Event	9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019 - Paris, France Duration: 8 Jul 2019 → 11 Jul 2019

Publication series

Name	9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019

Conference

Conference	9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019
Country/Territory	France
City	Paris
Period	8/07/19 → 11/07/19

Keywords

FC
FNNC
MRE isolator
Sinusoidal excitation

Cite this

Fu, J., Bai, J., Yang, Z., Dai, Z., Liu, J., & Yu, M. (2019). Fuzzy-neural network control for a magnetorheological elastomer vibration control system with sinusoidal excitations. In A. Benjeddou, N. Mechbal, & J.-F. Deu (Eds.), 9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019 (pp. 1281-1290). (9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019). International Center for Numerical Methods in Engineering.

Fu, Jie ; Bai, Junfeng ; Yang, Zening et al. / Fuzzy-neural network control for a magnetorheological elastomer vibration control system with sinusoidal excitations. 9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019. editor / Ayech Benjeddou ; Nazih Mechbal ; Jean-Francois Deu. International Center for Numerical Methods in Engineering, 2019. pp. 1281-1290 (9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019).

@inproceedings{e534927e07d9412db097ba4ed4f99d98,

title = "Fuzzy-neural network control for a magnetorheological elastomer vibration control system with sinusoidal excitations",

abstract = "This paper presents the design method of a fuzzy-neural network controller (FNNC) for a MRE vibration control system with sinusoidal excitations to improve the vibration attenuation. A semi-active FC is designed to obtain the conrolled force based on the feedback signals of the relative displacement and absolute displacement of the isolation structure, then the BP neural network with good learning capability is employed to emulate the dynamic behaviours of output force of fuzzy controller (FC), excitation displacement, velocity and controlled current applied to the coil in MRE isolator. The acceleration responses of the system with FNNC are evaluated by physical experiments, the results indicate that the FNNC could maintain satisfying control effect in the presence sinusoidal excitations and is also more optimal than conventional FC, the reason is that the neural network controller can approximate the nonlinear function relationship among the controlled force, excitation displacement, velocity and controlled current, but the function relationship is only considered as the linear function in conventional FC.",

keywords = "FC, FNNC, MRE isolator, Sinusoidal excitation",

author = "Jie Fu and Junfeng Bai and Zening Yang and Zhenyu Dai and Jing Liu and Miao Yu",

note = "Publisher Copyright: {\textcopyright} 2019 9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019. All rights reserved.; 9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019 ; Conference date: 08-07-2019 Through 11-07-2019",

year = "2019",

language = "英语",

series = "9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019",

publisher = "International Center for Numerical Methods in Engineering",

pages = "1281--1290",

editor = "Ayech Benjeddou and Nazih Mechbal and Jean-Francois Deu",

booktitle = "9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019",

}

Fu, J, Bai, J, Yang, Z, Dai, Z, Liu, J & Yu, M 2019, Fuzzy-neural network control for a magnetorheological elastomer vibration control system with sinusoidal excitations. in A Benjeddou, N Mechbal & J-F Deu (eds), 9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019. 9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019, International Center for Numerical Methods in Engineering, pp. 1281-1290, 9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019, Paris, France, 8/07/19.

Fuzzy-neural network control for a magnetorheological elastomer vibration control system with sinusoidal excitations. / Fu, Jie; Bai, Junfeng; Yang, Zening et al.
9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019. ed. / Ayech Benjeddou; Nazih Mechbal; Jean-Francois Deu. International Center for Numerical Methods in Engineering, 2019. p. 1281-1290 (9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Fuzzy-neural network control for a magnetorheological elastomer vibration control system with sinusoidal excitations

AU - Fu, Jie

AU - Bai, Junfeng

AU - Yang, Zening

AU - Dai, Zhenyu

AU - Liu, Jing

AU - Yu, Miao

PY - 2019

Y1 - 2019

N2 - This paper presents the design method of a fuzzy-neural network controller (FNNC) for a MRE vibration control system with sinusoidal excitations to improve the vibration attenuation. A semi-active FC is designed to obtain the conrolled force based on the feedback signals of the relative displacement and absolute displacement of the isolation structure, then the BP neural network with good learning capability is employed to emulate the dynamic behaviours of output force of fuzzy controller (FC), excitation displacement, velocity and controlled current applied to the coil in MRE isolator. The acceleration responses of the system with FNNC are evaluated by physical experiments, the results indicate that the FNNC could maintain satisfying control effect in the presence sinusoidal excitations and is also more optimal than conventional FC, the reason is that the neural network controller can approximate the nonlinear function relationship among the controlled force, excitation displacement, velocity and controlled current, but the function relationship is only considered as the linear function in conventional FC.

AB - This paper presents the design method of a fuzzy-neural network controller (FNNC) for a MRE vibration control system with sinusoidal excitations to improve the vibration attenuation. A semi-active FC is designed to obtain the conrolled force based on the feedback signals of the relative displacement and absolute displacement of the isolation structure, then the BP neural network with good learning capability is employed to emulate the dynamic behaviours of output force of fuzzy controller (FC), excitation displacement, velocity and controlled current applied to the coil in MRE isolator. The acceleration responses of the system with FNNC are evaluated by physical experiments, the results indicate that the FNNC could maintain satisfying control effect in the presence sinusoidal excitations and is also more optimal than conventional FC, the reason is that the neural network controller can approximate the nonlinear function relationship among the controlled force, excitation displacement, velocity and controlled current, but the function relationship is only considered as the linear function in conventional FC.

KW - FC

KW - FNNC

KW - MRE isolator

KW - Sinusoidal excitation

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M3 - 会议稿件

AN - SCOPUS:85101962791

T3 - 9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019

SP - 1281

EP - 1290

BT - 9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019

A2 - Benjeddou, Ayech

A2 - Mechbal, Nazih

A2 - Deu, Jean-Francois

PB - International Center for Numerical Methods in Engineering

T2 - 9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019

Y2 - 8 July 2019 through 11 July 2019

ER -

Fu J, Bai J, Yang Z, Dai Z, Liu J, Yu M. Fuzzy-neural network control for a magnetorheological elastomer vibration control system with sinusoidal excitations. In Benjeddou A, Mechbal N, Deu JF, editors, 9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019. International Center for Numerical Methods in Engineering. 2019. p. 1281-1290. (9th ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2019).

Fuzzy-neural network control for a magnetorheological elastomer vibration control system with sinusoidal excitations

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