论文信息 - The optimization of force inputs for active structural acoustic control using a neural network

The optimization of force inputs for active structural acoustic control using a neural network

This paper investigates the use of a neural network to determine which force actuators, of a multi-actuator array, are best activated in order to achieve structural-acoustic control. The concept is demonstrated using a cylinder/cavity model on which the control forces, produced by piezoelectric actuators, are applied with the objective of reducing the interior noise. A two-layer neural network is employed and the back propagation solution is compared with the results calculated by a conventional, least-squares optimization analysis. The ability of the neural network to accurately and efficiently control actuator activation for interior noise reduction is demonstrated.

[1] Francesco Piazza,et al. On the complex backpropagation algorithm , 1992, IEEE Trans. Signal Process..

[2] Richard J. Silcox,et al. Evaluation of piezoceramic actuators for control of aircraft interior noise , 1992 .

[3] R. J. Silcox,et al. Active control of interior noise in a large scale cylinder using piezoelectric actuators , 1992 .

[4] Yves Chauvin,et al. A Back-Propagation Algorithm with Optimal Use of Hidden Units , 1988, NIPS.