Earthquake Hazard Mitigation for Uncertain Building Systems Based on Adaptive Synergetic Control-Reference-Cited by-同舟云学术

Earthquake Hazard Mitigation for Uncertain Building Systems Based on Adaptive Synergetic Control

Published:2023-02-28 Issue:2 Volume:6 Page:34
ISSN:2571-5577
Container-title:Applied System Innovation
language:en
Short-container-title:ASI

Author:

Al-Dujaili Ayad Q.¹^ORCID,Humaidi Amjad J.²^ORCID,Allawi Ziyad T.³^ORCID,Sadiq Musaab E.⁴

Affiliation:

1. Electrical Engineering Technical College, Middle Technical University, Baghdad 10022, Iraq

2. Control and Systems Engineering Department, University of Technology, Baghdad 10066, Iraq

3. Department of Computer Engineering, College of Engineering, University of Baghdad, Baghdad 10001, Iraq

4. Ministry of Trade, General Company for Grain Processing, Baghdad 10001, Iraq

Abstract

This study presents an adaptive control scheme based on synergetic control theory for suppressing the vibration of building structures due to earthquake. The control key for the proposed controller is based on a magneto-rheological (MR) damper, which supports the building. According to Lyapunov-based stability analysis, an adaptive synergetic control (ASC) strategy was established under variation of the stiffness and viscosity coefficients in the vibrated building. The control and adaptive laws of the ASC were developed to ensure the stability of the controlled structure. The proposed controller addresses the suppression problem of a single-degree-of-freedom (SDOF) building model, and an earthquake control scenario was conducted and simulated on the basis of earthquake acceleration data recorded from the El Centro Imperial Valley Earthquake. The effectiveness of the adaptive synergetic control was verified and assessed via numerical simulation, and a comparison study was conducted between the adaptive and classical versions of synergetic control (SC). The vibration suppression index was used to evaluate both controllers. The numerical simulation showed the capability of the proposed adaptive controller to stabilize and to suppress the vibration of a building subjected to earthquake. In addition, the adaptive controller successfully kept the estimated viscosity and stiffness coefficients bounded.

Publisher

MDPI AG

Subject

Artificial Intelligence,Applied Mathematics,Industrial and Manufacturing Engineering,Human-Computer Interaction,Information Systems,Control and Systems Engineering

Link

https://www.mdpi.com/2571-5577/6/2/34/pdf

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