Dynamic interactions between the vehicle and guideway of a high speed
ground transportation system based on magnetically levitated (maglev)
vehicles were studied, with an emphasis on the effects of vehicle and
guideway parameters. Two dynamic models for the vehicle are presented.
In one model, the vehicle is considered a moving force travelling at
various speeds on a simply supported single- or two-span beam(s). In t
he second model, the vehicle is considered to be one-dimensional, with
two degrees of freedom, representing the primary and secondary suspen
sions of the vehicle with lumped masses, linear springs, and dampings.
The Bernoulli-Euler beam equation is used to model the characteristic
s of a flexible guideway, and the guideway synthesis is based on a mod
al analysis method. Analyses have been performed to understand respons
e characteristics under various loading conditions, and provide some b
enchmark data for verification of existing comprehensive computer prog
rams and some basic design guidelines for maglev systems.