Enhanced variable universe fuzzy proportional-integral-derivative control of structural vibration with real-time adaptive contracting-expanding factors

A conventional variable universe fuzzy proportional-integral-derivative control approach is widely used for semi-active control in mechanical engineering. The performance of the controller is dependent on an optimal selection of parameters of the contracting-expanding factors. An improved variable universe fuzzy proportional-integral-derivative control algorithm is developed in this study where these parameters are automatically determined in real-time according to the error in the controlled responses and its change rate based on fuzzy logic control. The proposed method is numerically and experimentally illustrated with a three-story frame structure with a magnetorheological damper. The amplitude of displacement, velocity, and acceleration at all floor levels under the proposed control method are smaller than those obtained from existing proportional-integral-derivative, fuzzy, and conventional variable universe fuzzy methods.