Doyumlu Eyleyicilere Sahip bir Asimetrik Yapisal Sistemin Titresimlerinin Dogrusal Matris Esitsizlikleri Tabanli H-Sonsuz Durum Geri Beslemeli Kontrolor ile Azaltilmasi

Translated title of the contribution: Vibrations of an assymetric structural system with saturated actuators linear matrix inequalities based H reducing with status feedback controller.

M. Sever, G. Goktas, H. Yazici, I.B. Kucukdemiral

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

This paper is concerned with the design of linear matrix inequalities based optimal state-feedback controller design for seismic excited asymmetric structural systems having stiffness irregularities. A one storey, two way asymmetric structural system model is used to illustrate the effectiveness of approach through simulations. The modelled system has bi-lateral and rotational degrees of freedom. Frequency responses show the effectiveness of proposed controller by means of a decrease in the peak values of each resonance frequency. Moreover, the time domain simulation results, acquired by using real time-history data of San Francisco and El Centro Earthquakes also show that proposed controller is very effective in reducing vibration amplitudes of each direction by applicable control signals and guaranteeing the stability of closed loop system.
Original languageUndefined/Unknown
Title of host publicationUluslararasi Katilimli 17. Makina Teorisi Sempozyumu
EditorsGökhan Kiper, Mehmet Ismet Can Dede
Place of PublicationAnkara
PublisherTurkish Machine Theory Association
Pages412-420
Number of pages9
ISBN (Electronic)9786058422001
Publication statusPublished - 2015

Fingerprint

Linear matrix inequalities
Actuators
Feedback
Controllers
State feedback
Closed loop systems
Frequency response
Earthquakes
Stiffness

Keywords

  • actuator saturation
  • active vibration control
  • asymmetric structure
  • earthquake-induced vibration
  • linear matrix inequalities

Cite this

Sever, M., Goktas, G., Yazici, H., & Kucukdemiral, I. B. (2015). Doyumlu Eyleyicilere Sahip bir Asimetrik Yapisal Sistemin Titresimlerinin Dogrusal Matris Esitsizlikleri Tabanli H-Sonsuz Durum Geri Beslemeli Kontrolor ile Azaltilmasi. In G. Kiper, & M. Ismet Can Dede (Eds.), Uluslararasi Katilimli 17. Makina Teorisi Sempozyumu (pp. 412-420). Ankara: Turkish Machine Theory Association.
Sever, M. ; Goktas, G. ; Yazici, H. ; Kucukdemiral, I.B. / Doyumlu Eyleyicilere Sahip bir Asimetrik Yapisal Sistemin Titresimlerinin Dogrusal Matris Esitsizlikleri Tabanli H-Sonsuz Durum Geri Beslemeli Kontrolor ile Azaltilmasi. Uluslararasi Katilimli 17. Makina Teorisi Sempozyumu. editor / Gökhan Kiper ; Mehmet Ismet Can Dede. Ankara : Turkish Machine Theory Association, 2015. pp. 412-420
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title = "Doyumlu Eyleyicilere Sahip bir Asimetrik Yapisal Sistemin Titresimlerinin Dogrusal Matris Esitsizlikleri Tabanli H-Sonsuz Durum Geri Beslemeli Kontrolor ile Azaltilmasi",
abstract = "This paper is concerned with the design of linear matrix inequalities based optimal state-feedback controller design for seismic excited asymmetric structural systems having stiffness irregularities. A one storey, two way asymmetric structural system model is used to illustrate the effectiveness of approach through simulations. The modelled system has bi-lateral and rotational degrees of freedom. Frequency responses show the effectiveness of proposed controller by means of a decrease in the peak values of each resonance frequency. Moreover, the time domain simulation results, acquired by using real time-history data of San Francisco and El Centro Earthquakes also show that proposed controller is very effective in reducing vibration amplitudes of each direction by applicable control signals and guaranteeing the stability of closed loop system.",
keywords = "actuator saturation, active vibration control, asymmetric structure, earthquake-induced vibration, linear matrix inequalities",
author = "M. Sever and G. Goktas and H. Yazici and I.B. Kucukdemiral",
year = "2015",
language = "Undefined/Unknown",
pages = "412--420",
editor = "Kiper, {G{\"o}khan } and { Ismet Can Dede}, Mehmet",
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Sever, M, Goktas, G, Yazici, H & Kucukdemiral, IB 2015, Doyumlu Eyleyicilere Sahip bir Asimetrik Yapisal Sistemin Titresimlerinin Dogrusal Matris Esitsizlikleri Tabanli H-Sonsuz Durum Geri Beslemeli Kontrolor ile Azaltilmasi. in G Kiper & M Ismet Can Dede (eds), Uluslararasi Katilimli 17. Makina Teorisi Sempozyumu. Turkish Machine Theory Association, Ankara, pp. 412-420.

Doyumlu Eyleyicilere Sahip bir Asimetrik Yapisal Sistemin Titresimlerinin Dogrusal Matris Esitsizlikleri Tabanli H-Sonsuz Durum Geri Beslemeli Kontrolor ile Azaltilmasi. / Sever, M.; Goktas, G.; Yazici, H.; Kucukdemiral, I.B.

Uluslararasi Katilimli 17. Makina Teorisi Sempozyumu. ed. / Gökhan Kiper; Mehmet Ismet Can Dede. Ankara : Turkish Machine Theory Association, 2015. p. 412-420.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

TY - GEN

T1 - Doyumlu Eyleyicilere Sahip bir Asimetrik Yapisal Sistemin Titresimlerinin Dogrusal Matris Esitsizlikleri Tabanli H-Sonsuz Durum Geri Beslemeli Kontrolor ile Azaltilmasi

AU - Sever, M.

AU - Goktas, G.

AU - Yazici, H.

AU - Kucukdemiral, I.B.

PY - 2015

Y1 - 2015

N2 - This paper is concerned with the design of linear matrix inequalities based optimal state-feedback controller design for seismic excited asymmetric structural systems having stiffness irregularities. A one storey, two way asymmetric structural system model is used to illustrate the effectiveness of approach through simulations. The modelled system has bi-lateral and rotational degrees of freedom. Frequency responses show the effectiveness of proposed controller by means of a decrease in the peak values of each resonance frequency. Moreover, the time domain simulation results, acquired by using real time-history data of San Francisco and El Centro Earthquakes also show that proposed controller is very effective in reducing vibration amplitudes of each direction by applicable control signals and guaranteeing the stability of closed loop system.

AB - This paper is concerned with the design of linear matrix inequalities based optimal state-feedback controller design for seismic excited asymmetric structural systems having stiffness irregularities. A one storey, two way asymmetric structural system model is used to illustrate the effectiveness of approach through simulations. The modelled system has bi-lateral and rotational degrees of freedom. Frequency responses show the effectiveness of proposed controller by means of a decrease in the peak values of each resonance frequency. Moreover, the time domain simulation results, acquired by using real time-history data of San Francisco and El Centro Earthquakes also show that proposed controller is very effective in reducing vibration amplitudes of each direction by applicable control signals and guaranteeing the stability of closed loop system.

KW - actuator saturation

KW - active vibration control

KW - asymmetric structure

KW - earthquake-induced vibration

KW - linear matrix inequalities

M3 - Conference contribution

SP - 412

EP - 420

BT - Uluslararasi Katilimli 17. Makina Teorisi Sempozyumu

A2 - Kiper, Gökhan

A2 - Ismet Can Dede, Mehmet

PB - Turkish Machine Theory Association

CY - Ankara

ER -

Sever M, Goktas G, Yazici H, Kucukdemiral IB. Doyumlu Eyleyicilere Sahip bir Asimetrik Yapisal Sistemin Titresimlerinin Dogrusal Matris Esitsizlikleri Tabanli H-Sonsuz Durum Geri Beslemeli Kontrolor ile Azaltilmasi. In Kiper G, Ismet Can Dede M, editors, Uluslararasi Katilimli 17. Makina Teorisi Sempozyumu. Ankara: Turkish Machine Theory Association. 2015. p. 412-420