In most of the research work on structural vibration control only two-dimensional plane structural modelling has been considered, although only a few practical building structures can be modelled as planar structures. Therefore, these methods are not directly applicable to the majority of the practical building structures. This paper discusses the design of a multiobjective optimal fuzzy logic controller (FLC) driven hybrid mass damper (HMD) system for seismically excited torsionally coupled building structures. Floor acceleration and velocity information have been used as feedback to the fuzzy logic controller. A three branch tournament Genetic Algorithm has been used for the multiobjective optimal design of the FLC driven HMD system, wher...
This paper aims to explore the usefulness of a simple genetic algorithm (GA) optimized Fuzzy Logic C...
AbstractIn this paper, a semi-active control method for seismically excited nonlinear benchmark buil...
In order to ensure the survival of building structures during earthquake periods, induced vibrations...
Structural vibration control using active or passive control strategy is a viable technology for enh...
Fuzzy logic control systems have been applied as an effective control system in various fields, incl...
The third generation benchmark control problem for seismically excited nonlinear buildings is an eff...
Few practical building structures can be modeled as planar structures, but in most of the research w...
Control devices can be used to dissipate the energy and attenuate undesirable vibration on engineeri...
In this study, an attempt has been made to develop a Fuzzy Logic Multi Verse Optimal Control (FLMVOC...
AbstractTuned Mass Dampers (TMDs) are a well-accepted control device widely used by the civil engine...
Copyright © 2014 Hyun-Su Kim. This is an open access article distributed under the Creative Commons ...
This paper proposes a systematic optimization method to design optimal multiple tuned liquid column ...
Smart structural control is now emerging as an alternative to conventional earthquake resistant desi...
This paper aims to evaluate the effectiveness of a semi-active fuzzy logic based controller (FLC) wi...
<div>EACS 2016 Paper No. 115</div><div><br></div>Smart structural control is now emerging as an alte...
This paper aims to explore the usefulness of a simple genetic algorithm (GA) optimized Fuzzy Logic C...
AbstractIn this paper, a semi-active control method for seismically excited nonlinear benchmark buil...
In order to ensure the survival of building structures during earthquake periods, induced vibrations...
Structural vibration control using active or passive control strategy is a viable technology for enh...
Fuzzy logic control systems have been applied as an effective control system in various fields, incl...
The third generation benchmark control problem for seismically excited nonlinear buildings is an eff...
Few practical building structures can be modeled as planar structures, but in most of the research w...
Control devices can be used to dissipate the energy and attenuate undesirable vibration on engineeri...
In this study, an attempt has been made to develop a Fuzzy Logic Multi Verse Optimal Control (FLMVOC...
AbstractTuned Mass Dampers (TMDs) are a well-accepted control device widely used by the civil engine...
Copyright © 2014 Hyun-Su Kim. This is an open access article distributed under the Creative Commons ...
This paper proposes a systematic optimization method to design optimal multiple tuned liquid column ...
Smart structural control is now emerging as an alternative to conventional earthquake resistant desi...
This paper aims to evaluate the effectiveness of a semi-active fuzzy logic based controller (FLC) wi...
<div>EACS 2016 Paper No. 115</div><div><br></div>Smart structural control is now emerging as an alte...
This paper aims to explore the usefulness of a simple genetic algorithm (GA) optimized Fuzzy Logic C...
AbstractIn this paper, a semi-active control method for seismically excited nonlinear benchmark buil...
In order to ensure the survival of building structures during earthquake periods, induced vibrations...