As a guest user you are not logged in or recognized by your IP address. You have
access to the Front Matter, Abstracts, Author Index, Subject Index and the full
text of Open Access publications.
In the last few years, new methods to perform active vibration control were proposed and developed with the purpose of handling with several dynamic problems. These researches are motivated by the necessity of a safer and more efficient performance in the operation of mechanical systems (industrial applications). There are several types of actuators available for the active vibration control, the current work is dedicated on the Electromagnetic Actuator. This actuator uses electromagnetic forces to control the rotor without mechanical contact. And it is represented by a non-linear model, which justifies the control by Fuzzy Logic. In this work, the aim is to attenuate rotor system vibration by Fuzzy Logic based in Takagi-Sugeno model, the control is achieved using the linear quadratic regulator. Finally, the simulation results demonstrate efficiency of the methodology, which can be seen in the reduction of vibration amplitude.
This website uses cookies
We use cookies to provide you with the best possible experience. They also allow us to analyze user behavior in order to constantly improve the website for you. Info about the privacy policy of IOS Press.
This website uses cookies
We use cookies to provide you with the best possible experience. They also allow us to analyze user behavior in order to constantly improve the website for you. Info about the privacy policy of IOS Press.