Optimal Design of a Smart Actuator by using of GA for the Control of a Flexible Structure Experiencing White Noise Disturbance

  • Han, Jungyoup (Dept of Control and Instrumentation Eng. Korea Univ.) ;
  • Heo, Hoon (Dept of Control and Instrumentation Eng. Korea Univ.)
  • Published : 1996.04.01

Abstract

This paper deals with the problem of placement/sizing of distributed piezo actuators to achieve the control objective of vibration suppression. Using the mean square response as a performance index in optimization, we obtain optimal placement and sizing of the actuator. The use of genetic algorithms as a technique for solving optimization problems of placement and sizing is explored. Genetic algorithms are also used for the control strategy. The analysis of the system and response moment equations are carried out by using the Fokker-Planck equation. This paper presents the design and analysis of an active controller and optimal placement/sizing of distributed piezo actuators based on genetic algorithms for a flexible structure under random disturbance, shows numerical example and the result.

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