Neuro-control of vibration for a maglev vehicle traveling at high speeds

Yau J. D.

11th WSEAS International Conference on Automatic Control, Modelling and Simulation, İstanbul, Türkiye, 30 Mayıs - 01 Haziran 2009, ss.250-251 identifier

  • Basıldığı Şehir: İstanbul
  • Basıldığı Ülke: Türkiye
  • Sayfa Sayıları: ss.250-251


This paper is intended to present a neuro-PD (Proportional-Derivative) controller for tuning the dynamic response of a maglev vehicle running at high speeds around speficic accelration amplitude. The maglev vehicle IS Simulated as a rigid car body supported by a rigid magnetic bogie-set with a uniformly distributed spring-dashpot system, in which the electromagnetic force is controlled by an on-board PD controller. Considering the motion-dependent nature of electromagnetic force working in a maglev system, this Study presents an iterative approach to compute the dynamic response of the running maglev vehicle system based on the Newmark method. To determine the PD gains for a maglev vehicle traveling at various speeds, a proposed neuro-PD controller is trained using back propagation neural network (BPN) in such a way that its PD gains are correlated to the generated dataset of moving speeds and the maximum vertical accelerations of the maglev vehicle. Numerical simulations demonstrate that a trained neuro-PD controller has the ability to tune the acceleration amplitude of a running maglev vehicle within an allowable region of restricted acceleration.