Optimal fuzzy iterative learning control based on artificial bee colony for vibration control of piezoelectric smart structures

• Main Authors: Liang Bai, Yun-Wen Feng, Ning Li, Xiao-Feng Xue
• Format: Article
• Language: English
• Published: JVE International 2019-02-01
• Series: Journal of Vibroengineering
• Subjects: P-type IL control; fuzzy logic control; artificial bee colony algorithm; active vibration control; piezoelectric smart structure
• Online Access: https://www.jvejournals.com/article/19698

Combining P-type iterative learning (IL) control, fuzzy logic control and artificial bee colony (ABC) algorithm, a new optimal fuzzy IL controller is designed for active vibration control of piezoelectric smart structures. In order to accelerate the learning speed of feedback gain, the fuzzy logic controller is integrated into the ANSYS finite element (FE) models by using APDL (ANSYS Parameter Design Language) approach to adjust adaptively the learning gain of P-type IL control. For improving the performance and robustness of the fuzzy logic controller as well as diminishing human intervention in the operation process, ABC algorithm is used to automatically identify the optimal configurations for values in fuzzy query table, fuzzification parameters and defuzzification parameters, and the main program of ABC algorithm is operated in MATLAB. The active vibration equations are driven from the FE equations for the dynamic response of a linear elastic piezoelectric smart structure. Considering the vibrations generated by various external disturbances, the optimal fuzzy IL controller is numerically investigated for a clamped piezoelectric smart plate. Results demonstrate that the proposed control approach makes the feedback gain has a fast learning speed and performs excellent in vibration suppression. This is demonstrated in the results by comparing the new control approach with the P-type IL control.