A novel strategy for effectively implementing a typical AVC scheme using finite element model updating

Poonam Sood; Manu Sharma; Sukesha Sharma; Navin Kumar

Ayuda

A novel strategy for effectively implementing a typical AVC scheme using finite element model updating

Poonam Sood ^[1] ; Manu Sharma ^[1] ; Sukesha Sharma ^[1] ; Navin Kumar ^[2]
1. [1] Panjab University
  
  Panjab University
  
  India
2. [2] Department of Mechanical engineering
Localización: Mechanics based design of structures and machines, ISSN 1539-7734, Vol. 47, Nº. 6, 2019, págs. 740-752
Idioma: inglés
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Resumen
- Finite element (FE) model of a square cantilevered plate instrumented with a piezoelectric sensor and an actuator is created using Hamilton’s principle.
  
  Rotational degrees of freedom (dofs) of the FE model are eliminated using system equivalent reduction expansion process (SEREP). Experimental mode shapes and natural frequencies are extracted from the structure using high speed cameras and digital image correlation (DIC) technique.
  
  Initial FE model is updated using experimental mode shapes and natural frequencies by well-known Berman and Nagy approach. Updated FE model thus derived is further reduced to first three modes using orthonormal modal reduction technique. Modal model of the smart plate is then used to derive state space model of the smart plate. Two Kalman observers are constructed: one using initial FE model and other using updated FE model.
  
  Active vibration control experiments are conducted on the cantilevered using these two Kalman observers in the control law. It is observed that much better vibration suppression occurs when Kalman observer based on updated FE model is used in the control law. Strategy suggested in this work to implement a typical active vibration control scheme on a structure is simple and yet very effective.