Title :
Electromagnetic suspension: new results using neural networks
Author :
Sinha, P.K. ; Hadjiiski, L.M. ; Zhou, F.B. ; Kutiyal, R.S.
Author_Institution :
Dept. of Eng., Reading Univ., UK
fDate :
11/1/1993 12:00:00 AM
Abstract :
Due to nonlinear magnet characteristics, controllers for magnetically suspended vehicles are usually designed by using linear small perturbation models. This assumption of linearity poses serious constraints on the operating range (allowable airgap) of the suspended objects. A brief account of using neural network (NN) concepts in the formulation of the nonlinear airgap-force characteristics of an experimental electromagnetic suspension system is presented. The main advantage of using the NN is the designer´s ability to identify the magnet-force characterstics through experimental data (learning)
Keywords :
learning (artificial intelligence); magnetic levitation; neural nets; transport computer control; electromagnetic suspension system; learning; magnet-force characterstics; magnetically suspended vehicles; neural networks; nonlinear airgap-force characteristics; nonlinear magnet characteristics; Algorithm design and analysis; Control system synthesis; Force control; Inverse problems; Linearity; Magnetic levitation; Neural networks; Nonlinear control systems; Vehicles; Voltage control;
Journal_Title :
Magnetics, IEEE Transactions on
