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Integrated Multiobjective Optimal Design for Active Control System Based on Genetic Algorithm

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  • Ma Yong-Quan
  • Qiu Hong-Xing

Abstract

The integrated multiobjective optimal design method for structural active control system is put forward based on improved Pareto multiobjective genetic algorithm, through which the position of actuator is synchronously optimized with active controller. External excitation is simulated by stationary filtered white noise. The root-mean-square (RMS) of structural response and active control force can be achieved by solving Lyapunov equation in the state space. The design of active controller adopts linear quadratic regulator (LQR) control algorithm. Minimum ratio of the maximum RMS of controlled structural displacement divided by the maximum RMS of uncontrolled structural displacement and minimum ratio of the maximum RMS of controlled structural shear divided by the maximum RMS of uncontrolled structural shear, together with minimization of the sum of RMS of active control force, are used as the three objective functions of multiobjective optimization. The optimization process takes the impact of structure and excitation parameter on the optimized results. An eight-storey six-span plane steel frame was used as an emulational example to demonstrate the validity of this optimization method. Results show that the proposed integrated multiobjective optimal design method is simple, efficient, and practical with good universality.

Suggested Citation

  • Ma Yong-Quan & Qiu Hong-Xing, 2014. "Integrated Multiobjective Optimal Design for Active Control System Based on Genetic Algorithm," Mathematical Problems in Engineering, Hindawi, vol. 2014, pages 1-9, July.
  • Handle: RePEc:hin:jnlmpe:748237
    DOI: 10.1155/2014/748237
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