Title of article
The solutions of vibration control problems using artificial neural networks
Author/Authors
Alli، نويسنده , , Hasan and Uçar، نويسنده , , Ay?egül and Demir، نويسنده , , Yakup، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
19
From page
307
To page
325
Abstract
This paper introduces an alternative method artificial neural networks (ANN) used to obtain numerical solutions of mathematical models of dynamic systems, represented by ordinary differential equations (ODEs) and partial differential equations (PDEs). The proposed trial solution of differential equations (DEs) consists of two parts: The initial and boundary conditions (BCs) should be satisfied by the first part. However, the second part is not affected from initial and BCs, but it only tries to satisfy DE. This part involves a feedforward ANN containing adjustable parameters (weight and bias). The proposed solution satisfying boundary and initial condition uses a feedforward ANN with one hidden layer varying the neuron number in the hidden layer according to complexity of the considered problem. The ANN having appropriate architecture has been trained with backpropagation algorithm using an adaptive learning rate to satisfy DE. Moreover, we have, first, developed the general formula for the numerical solutions of nth-order initial-value problems by using ANN.
merical applications, the ODEs that are the mathematical models of linear and non-linear mass-damper-spring systems and the second- and fourth-order PDEs that are the mathematical models of the control of longitudinal vibrations of rods and lateral vibrations of beams have been considered. Finally, the responses of the controlled and non-controlled systems have been obtained. The obtained results have been graphically presented and some conclusion remarks are given.
Keywords
Vibration control problems , Artificial neural networks , Backpropagation algorithm
Journal title
Journal of the Franklin Institute
Serial Year
2003
Journal title
Journal of the Franklin Institute
Record number
1542733
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