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Neural Network Active Control of Structures with Earthquake Excitation  

Cho Hyun Cheol (Department of Electrical Engineering, University of Nevada-Reno)
Fadali M. Sami (Department of Electrical Engineering, University of Nevada-Reno)
Saiidi M. Saiid (Department of Civil Engineering, University of Nevada-Reno)
Lee Kwon Soon (Division of Electrical, Electronic, and Computer Engineering, Dong-A University)
Publication Information
International Journal of Control, Automation, and Systems / v.3, no.2, 2005 , pp. 202-210 More about this Journal
Abstract
This paper presents a new neural network control for nonlinear bridge systems with earthquake excitation. We design multi-layer neural network controllers with a single hidden layer. The selection of an optimal number of neurons in the hidden layer is an important design step for control performance. To select an optimal number of hidden neurons, we progressively add one hidden neuron and observe the change in a performance measure given by the weighted sum of the system error and the control force. The number of hidden neurons which minimizes the performance measure is selected for implementation. A neural network was trained for mitigating vibrations of bridge systems caused by El Centro earthquake. We applied the proposed control approach to a single-degree-of-freedom (SDOF) and a two-degree-of-freedom (TDOF) bridge system. We assessed the robustness of the control system using randomly generated earthquake excitations which were not used in training the neural network. Our results show that the neural network controller drastically mitigates the effect of the disturbance.
Keywords
Neural networks; optimal neuron number; bridge control; earthquake engineering;
Citations & Related Records

Times Cited By Web Of Science : 1  (Related Records In Web of Science)
Times Cited By SCOPUS : 3
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